{smcl}
{com}{sf}{ul off}{txt}{.-}
      name:  {res}<unnamed>
       {txt}log:  {res}/Users/daniellelupton/Documents/Professional/Working Papers/Subject Pool Comparison/R&R/Final/Replication Files/To Upload/LuptonExternalValidityLog.smcl
  {txt}log type:  {res}smcl
 {txt}opened on:  {res}12 Jul 2018, 14:07:39

{com}. do "/var/folders/sk/s2q9hygx1l979gdgkf4x29680000gq/T//SD66036.000000"
{txt}
{com}. **Replication Data for Lupton "The External Validity of College Student Subject Pools in Experimental Research:**
. **A Cross-Sample Comparison of Treatment Effect Heterogeneity"**
. 
. **Read in Data**
. use LuptonExternalValidityReplicationData.dta
{txt}
{com}. 
. **To Replicate Results from Main Body Text**
. 
. **To Replicate Figure 1**
. reg response democracy stateinterest staterep leaderrep if pool=="A", robust

{txt}Linear regression                               Number of obs     = {res}       110
                                                {txt}F(4, 105)         =  {res}     1.64
                                                {txt}Prob > F          = {res}    0.1696
                                                {txt}R-squared         = {res}    0.0584
                                                {txt}Root MSE          =    {res} .71004

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2}-.0480326{col 27}{space 2} .0883549{col 38}{space 1}   -0.54{col 47}{space 3}0.588{col 55}{space 4} -.223224{col 68}{space 3} .1271588
{txt}stateinterest {c |}{col 15}{res}{space 2} .0983348{col 27}{space 2} .1327262{col 38}{space 1}    0.74{col 47}{space 3}0.460{col 55}{space 4}-.1648367{col 68}{space 3} .3615063
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0739443{col 27}{space 2} .1307627{col 38}{space 1}   -0.57{col 47}{space 3}0.573{col 55}{space 4}-.3332226{col 68}{space 3} .1853339
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1993643{col 27}{space 2} .0911423{col 38}{space 1}    2.19{col 47}{space 3}0.031{col 55}{space 4} .0186459{col 68}{space 3} .3800828
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 1.895922{col 27}{space 2} .1495983{col 38}{space 1}   12.67{col 47}{space 3}0.000{col 55}{space 4} 1.599296{col 68}{space 3} 2.192547
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. estimates store A
{txt}
{com}. reg response democracy stateinterest staterep leaderrep if pool=="B", robust

{txt}Linear regression                               Number of obs     = {res}       123
                                                {txt}F(4, 118)         =  {res}     1.30
                                                {txt}Prob > F          = {res}    0.2726
                                                {txt}R-squared         = {res}    0.0325
                                                {txt}Root MSE          =    {res}  .7894

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2}-.2567482{col 27}{space 2} .1209588{col 38}{space 1}   -2.12{col 47}{space 3}0.036{col 55}{space 4}-.4962795{col 68}{space 3} -.017217
{txt}stateinterest {c |}{col 15}{res}{space 2}-.1405222{col 27}{space 2} .1509096{col 38}{space 1}   -0.93{col 47}{space 3}0.354{col 55}{space 4}-.4393643{col 68}{space 3} .1583198
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0290821{col 27}{space 2} .1200887{col 38}{space 1}   -0.24{col 47}{space 3}0.809{col 55}{space 4}-.2668904{col 68}{space 3} .2087262
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2}-.0221618{col 27}{space 2} .1002038{col 38}{space 1}   -0.22{col 47}{space 3}0.825{col 55}{space 4}-.2205927{col 68}{space 3}  .176269
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.168241{col 27}{space 2} .1922821{col 38}{space 1}   11.28{col 47}{space 3}0.000{col 55}{space 4}  1.78747{col 68}{space 3} 2.549012
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. estimates store B
{txt}
{com}. reg response democracy stateinterest staterep leaderrep if pool=="C", robust

{txt}Linear regression                               Number of obs     = {res}       216
                                                {txt}F(4, 211)         =  {res}     6.30
                                                {txt}Prob > F          = {res}    0.0001
                                                {txt}R-squared         = {res}    0.0759
                                                {txt}Root MSE          =    {res} .70792

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .1870301{col 27}{space 2} .0674608{col 38}{space 1}    2.77{col 47}{space 3}0.006{col 55}{space 4} .0540466{col 68}{space 3} .3200136
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0376782{col 27}{space 2} .0763917{col 38}{space 1}   -0.49{col 47}{space 3}0.622{col 55}{space 4} -.188267{col 68}{space 3} .1129106
{txt}{space 5}staterep {c |}{col 15}{res}{space 2} -.081564{col 27}{space 2} .0766957{col 38}{space 1}   -1.06{col 47}{space 3}0.289{col 55}{space 4}-.2327519{col 68}{space 3} .0696239
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1681348{col 27}{space 2} .0547542{col 38}{space 1}    3.07{col 47}{space 3}0.002{col 55}{space 4} .0601994{col 68}{space 3} .2760701
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.026598{col 27}{space 2} .1095683{col 38}{space 1}   18.50{col 47}{space 3}0.000{col 55}{space 4}  1.81061{col 68}{space 3} 2.242587
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. estimates store C
{txt}
{com}. reg response democracy stateinterest staterep leaderrep if pool=="AMT", robust

{txt}Linear regression                               Number of obs     = {res}     2,117
                                                {txt}F(4, 2112)        =  {res}    11.51
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0178
                                                {txt}Root MSE          =    {res} .72853

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .0058179{col 27}{space 2} .0253901{col 38}{space 1}    0.23{col 47}{space 3}0.819{col 55}{space 4}-.0439743{col 68}{space 3} .0556101
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0669917{col 27}{space 2}  .025783{col 38}{space 1}   -2.60{col 47}{space 3}0.009{col 55}{space 4}-.1175543{col 68}{space 3}-.0164291
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0899774{col 27}{space 2} .0248077{col 38}{space 1}   -3.63{col 47}{space 3}0.000{col 55}{space 4}-.1386275{col 68}{space 3}-.0413274
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .0982866{col 27}{space 2} .0192196{col 38}{space 1}    5.11{col 47}{space 3}0.000{col 55}{space 4} .0605952{col 68}{space 3}  .135978
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.130816{col 27}{space 2}  .033719{col 38}{space 1}   63.19{col 47}{space 3}0.000{col 55}{space 4}  2.06469{col 68}{space 3} 2.196942
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. estimates store D
{txt}
{com}. coefplot A B C D, drop(_cons) xline(0) 
{res}{txt}
{com}. graph save Figure1, replace
{res}{txt}(file Figure1.gph saved)

{com}. 
. **To Replicate Results from Appendix**
. 
. **To Replicate Table A.1**
. putexcel set TableA_1.xlsx, sheet(Sheet1) replace
{res}{txt}Note: file will be replaced when the first {cmd:putexcel} command is issued

{com}. putexcel A2 = "Partisanship"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A3 = "% Democrat"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A4 = "% Republican"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A5 = "% Female"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A6 = "Political Affiliation"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A7 = "% Conservative"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A8 = "% Liberal"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A9 = "Age (Mean"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A10 = "% Somewhat or Very Interested in Politics"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A11 = "% Somewhat or Very Closely Follow International Events"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A12 = "Attention to News in Past Week"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A13 = "% Once a day or more"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A14 = "% 3-5 Times a week"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A15 = "% Once a week"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A16 = "% Not at all"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A17 = "Views on the Role of Leaders"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A18 = "% Strongly or somewhat agree leaders are important..."
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A19 = "% Strongly or somewhat disagree a country..."
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A20 = "Views on the Use of Force"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A21 = "% Strongly or somewhat agree that sometimes..."
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A22 = "% Strongly or somewhat agree the use of military..."
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A23 = "% Drop Out Survey"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel A24 = "N (completed)"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel B1 = "Student Sample A"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C1 = "Student Sample B"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D1 = "Student Sample C"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E1 = "MTurk Sample"
{res}{txt}file TableA_1.xlsx saved

{com}. tab party pool, column nofreq 

           {txt}{c |}                    Pool
     party {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}     18.18      15.21      22.31      42.59 {txt}{c |}{res}     17.99 
{txt}         2 {c |}{res}     50.00      42.51      44.62      25.46 {txt}{c |}{res}     41.51 
{txt}         3 {c |}{res}     20.00      31.65      26.92      20.83 {txt}{c |}{res}     30.00 
{txt}         4 {c |}{res}      7.27       7.18       2.31       8.33 {txt}{c |}{res}      7.03 
{txt}         5 {c |}{res}      4.55       3.45       3.85       2.78 {txt}{c |}{res}      3.46 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. **Copy and paste values from results into excel table**
. putexcel B3 = "50.00"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel B4 = "18.18"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C3 = "44.62"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C4 = "22.31"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D3 = "25.46"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D4 = "42.59"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E3 = "42.51"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E4 = "15.21"
{res}{txt}file TableA_1.xlsx saved

{com}. tab gender pool, column nofreq

           {txt}{c |}                    Pool
    gender {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}     46.79      56.76      55.91      56.02 {txt}{c |}{res}     56.24 
{txt}         2 {c |}{res}     53.21      43.24      44.09      43.98 {txt}{c |}{res}     43.76 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. putexcel B5 = "53.21"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C5 = "44.09"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D5 = "43.98"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E5 = "43.24"
{res}{txt}file TableA_1.xlsx saved

{com}. tab polaffil pool, column nofreq

           {txt}{c |}                    Pool
  polaffil {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      1.85       7.12       0.00      31.84 {txt}{c |}{res}      8.51 
{txt}         2 {c |}{res}      6.48       6.58       7.69       0.00 {txt}{c |}{res}      6.10 
{txt}         3 {c |}{res}     17.59       7.90       3.85       0.00 {txt}{c |}{res}      7.47 
{txt}         4 {c |}{res}     12.04      19.65      17.69      18.91 {txt}{c |}{res}     19.16 
{txt}         5 {c |}{res}     20.37      17.75      23.85      19.40 {txt}{c |}{res}     18.31 
{txt}         6 {c |}{res}     37.04      29.60      20.77      12.94 {txt}{c |}{res}     28.11 
{txt}         7 {c |}{res}      4.63      11.41      20.77      16.92 {txt}{c |}{res}     12.05 
{txt}         8 {c |}{res}      0.00       0.00       4.62       0.00 {txt}{c |}{res}      0.24 
{txt}         9 {c |}{res}      0.00       0.00       0.77       0.00 {txt}{c |}{res}      0.04 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 1.85+6.48+17.59
{res}25.92
{txt}
{com}. putexcel B7 = "25.92"
{res}{txt}file TableA_1.xlsx saved

{com}. di 20.37+37.04+12.04
{res}69.45
{txt}
{com}. putexcel B8 = "62.04"
{res}{txt}file TableA_1.xlsx saved

{com}. di 7.69+3.85
{res}11.54
{txt}
{com}. putexcel C7 = "11.54"
{res}{txt}file TableA_1.xlsx saved

{com}. di 23.85+20.77+20.77
{res}65.39
{txt}
{com}. putexcel C8 = "65.39"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D7 = "31.84"
{res}{txt}file TableA_1.xlsx saved

{com}. di 19.40+12.94+16.92
{res}49.26
{txt}
{com}. putexcel D8 = "49.26"
{res}{txt}file TableA_1.xlsx saved

{com}. di 7.12+6.58+7.90
{res}21.6
{txt}
{com}. putexcel E7 = "21.60"
{res}{txt}file TableA_1.xlsx saved

{com}. di 17.75+29.60+11.41
{res}58.76
{txt}
{com}. putexcel E8 = "58.76"
{res}{txt}file TableA_1.xlsx saved

{com}. sort pool
{txt}
{com}. by pool: sum age

{txt}{hline}
-> pool = A

    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 9}age {c |}{res}        102    20.06863    1.443729         18         25

{txt}{hline}
-> pool = AMT

    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 9}age {c |}{res}      2,099    34.33063    10.78012         21         77

{txt}{hline}
-> pool = B

    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 9}age {c |}{res}        124    21.51613    2.184513         19         27

{txt}{hline}
-> pool = C

    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 9}age {c |}{res}        203    23.77833    2.137622         21         35

{txt}
{com}. putexcel B9 = "20.07"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C9 = "21.52"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D9 = "23.78"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E9 = "34.33"
{res}{txt}file TableA_1.xlsx saved

{com}. tab polint pool, column nofreq

           {txt}{c |}                    Pool
    polint {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      0.92       5.15      28.46       0.00 {txt}{c |}{res}      5.72 
{txt}         2 {c |}{res}      4.59      17.52      43.85       9.26 {txt}{c |}{res}     17.61 
{txt}         3 {c |}{res}      4.59      17.10       6.15      23.15 {txt}{c |}{res}     16.52 
{txt}         4 {c |}{res}     44.95      51.96      11.54      54.17 {txt}{c |}{res}     49.81 
{txt}         5 {c |}{res}     44.95       8.27      10.00      13.43 {txt}{c |}{res}     10.34 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 44.95+44.95
{res}89.9
{txt}
{com}. putexcel B10 = "89.90"
{res}{txt}file TableA_1.xlsx saved

{com}. di 11.54+10.00
{res}21.54
{txt}
{com}. putexcel C10 = "21.54"
{res}{txt}file TableA_1.xlsx saved

{com}. di 54.17+13.43
{res}67.6
{txt}
{com}. putexcel D10 = "67.60"
{res}{txt}file TableA_1.xlsx saved

{com}. di 51.96+8.27
{res}60.23
{txt}
{com}. putexcel E10 = "60.23"
{res}{txt}file TableA_1.xlsx saved

{com}. tab eventint pool, column nofreq

           {txt}{c |}                    Pool
  eventint {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      0.91       2.60      10.77       1.86 {txt}{c |}{res}      2.88 
{txt}         2 {c |}{res}     10.91      26.59      44.62      26.05 {txt}{c |}{res}     26.79 
{txt}         3 {c |}{res}     17.27      22.82      16.15      26.05 {txt}{c |}{res}     22.51 
{txt}         4 {c |}{res}     50.00      42.61      26.92      38.14 {txt}{c |}{res}     41.76 
{txt}         5 {c |}{res}     20.91       5.38       1.54       7.91 {txt}{c |}{res}      6.07 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 50.00+20.91
{res}70.91
{txt}
{com}. putexcel B11 = "70.91"
{res}{txt}file TableA_1.xlsx saved

{com}. di 26.92+1.54
{res}28.46
{txt}
{com}. putexcel C11 = "28.46"
{res}{txt}file TableA_1.xlsx saved

{com}. di 38.14+7.91
{res}46.05
{txt}
{com}. putexcel D11 = "46.05"
{res}{txt}file TableA_1.xlsx saved

{com}. di 42.61+5.38
{res}47.99
{txt}
{com}. putexcel E11 = "47.99"
{res}{txt}file TableA_1.xlsx saved

{com}. tab attention pool, column nofreq

           {txt}{c |}                    Pool
 attention {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      0.00       3.78      23.08       6.02 {txt}{c |}{res}      4.78 
{txt}         2 {c |}{res}     13.64      19.23      20.77      18.06 {txt}{c |}{res}     18.97 
{txt}         3 {c |}{res}     32.73      34.34      31.54      34.72 {txt}{c |}{res}     34.16 
{txt}         4 {c |}{res}     26.36      21.78      15.38      22.22 {txt}{c |}{res}     21.69 
{txt}         5 {c |}{res}     27.27      20.88       9.23      18.98 {txt}{c |}{res}     20.40 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. putexcel B13 = "13.64"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel B14 = "32.73" 
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel B15 = "26.36"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel B16 = "27.27"
{res}{txt}file TableA_1.xlsx saved

{com}. di 23.08+20.77
{res}43.85
{txt}
{com}. putexcel C13 = "43.85"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C14 = "31.54"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C15 = "15.38"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C16 = "9.23"
{res}{txt}file TableA_1.xlsx saved

{com}. di 6.02+18.06
{res}24.08
{txt}
{com}. putexcel D13 = "24.08"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D14 = "34.72"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D15 = "22.22"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D16 = "18.98"
{res}{txt}file TableA_1.xlsx saved

{com}. di 3.78+19.23
{res}23.01
{txt}
{com}. putexcel E13 = "23.01"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E14 = "34.34"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E15 = "21.78"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E16 = "20.88"
{res}{txt}file TableA_1.xlsx saved

{com}. tab leaderimp pool, column nofreq

           {txt}{c |}                    Pool
 leaderimp {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      1.82       1.09      30.71       0.00 {txt}{c |}{res}      2.49 
{txt}         2 {c |}{res}      4.55       4.02      40.94       4.17 {txt}{c |}{res}      5.88 
{txt}         3 {c |}{res}      5.45       8.31      10.24       8.33 {txt}{c |}{res}      8.29 
{txt}         4 {c |}{res}     56.36      56.40      10.24      51.39 {txt}{c |}{res}     53.70 
{txt}         5 {c |}{res}     31.82      30.18       7.87      36.11 {txt}{c |}{res}     29.65 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 56.36+31.82
{res}88.18
{txt}
{com}. putexcel B18 = "88.18"
{res}{txt}file TableA_1.xlsx saved

{com}. di 10.24+7.87 
{res}18.11
{txt}
{com}. putexcel C18 = "18.11"
{res}{txt}file TableA_1.xlsx saved

{com}. di 51.39+36.11
{res}87.5
{txt}
{com}. putexcel D18 = "87.50"
{res}{txt}file TableA_1.xlsx saved

{com}. di 56.40+30.18
{res}86.58
{txt}
{com}. putexcel E18 = "86.58"
{res}{txt}file TableA_1.xlsx saved

{com}. tab leadersig pool, column nofreq

           {txt}{c |}                    Pool
 leadersig {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      0.91       3.68       2.38       1.40 {txt}{c |}{res}      3.31 
{txt}         2 {c |}{res}     10.00      19.79      11.11      11.63 {txt}{c |}{res}     18.26 
{txt}         3 {c |}{res}      7.27      11.67      11.90       7.44 {txt}{c |}{res}     11.14 
{txt}         4 {c |}{res}     50.91      43.41      49.21      42.79 {txt}{c |}{res}     43.96 
{txt}         5 {c |}{res}     30.91      21.45      25.40      36.74 {txt}{c |}{res}     23.33 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 50.91+30.91
{res}81.82
{txt}
{com}. putexcel B19 = "81.82"
{res}{txt}file TableA_1.xlsx saved

{com}. di 49.21+25.40
{res}74.61
{txt}
{com}. putexcel C19 = "74.61"
{res}{txt}file TableA_1.xlsx saved

{com}. di 42.79+36.74
{res}79.53
{txt}
{com}. putexcel D19 = "79.53"
{res}{txt}file TableA_1.xlsx saved

{com}. di 43.41+21.45
{res}64.86
{txt}
{com}. putexcel E19 = "64.86"
{res}{txt}file TableA_1.xlsx saved

{com}. tab forceok pool, column nofreq

           {txt}{c |}                    Pool
   forceok {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      7.27      12.56       9.45      15.28 {txt}{c |}{res}     12.41 
{txt}         2 {c |}{res}     24.55      26.74      46.46      28.24 {txt}{c |}{res}     27.74 
{txt}         3 {c |}{res}     10.00      20.97      12.60      20.37 {txt}{c |}{res}     20.04 
{txt}         4 {c |}{res}     41.82      34.91      22.05      28.70 {txt}{c |}{res}     34.05 
{txt}         5 {c |}{res}     16.36       4.82       9.45       7.41 {txt}{c |}{res}      5.76 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 41.82+16.36
{res}58.18
{txt}
{com}. putexcel B21 = "58.18"
{res}{txt}file TableA_1.xlsx saved

{com}. di 22.05+9.45
{res}31.5
{txt}
{com}. putexcel C21 = "31.50"
{res}{txt}file TableA_1.xlsx saved

{com}. di 28.70+7.41
{res}36.11
{txt}
{com}. putexcel D21 = "36.11"
{res}{txt}file TableA_1.xlsx saved

{com}. di 34.91+4.82
{res}39.73
{txt}
{com}. putexcel E21 = "39.73"
{res}{txt}file TableA_1.xlsx saved

{com}. tab forcebad pool, column nofreq

           {txt}{c |}                    Pool
  forcebad {c |}         A        AMT          B          C {c |}     Total
{hline 11}{c +}{hline 44}{c +}{hline 10}
         1 {c |}{res}      8.18      11.81       1.57      12.96 {txt}{c |}{res}     11.25 
{txt}         2 {c |}{res}     20.91      37.84      28.35      39.81 {txt}{c |}{res}     36.81 
{txt}         3 {c |}{res}     28.18      26.55      36.22      26.85 {txt}{c |}{res}     27.12 
{txt}         4 {c |}{res}     37.27      20.36      29.13      17.13 {txt}{c |}{res}     21.25 
{txt}         5 {c |}{res}      5.45       3.45       4.72       3.24 {txt}{c |}{res}      3.58 
{txt}{hline 11}{c +}{hline 44}{c +}{hline 10}
     Total {c |}{res}    100.00     100.00     100.00     100.00 {txt}{c |}{res}    100.00 

{txt}
{com}. di 37.27+5.45
{res}42.72
{txt}
{com}. putexcel B22 = "42.72"
{res}{txt}file TableA_1.xlsx saved

{com}. di 29.13+4.72
{res}33.85
{txt}
{com}. putexcel C22 = "33.85"
{res}{txt}file TableA_1.xlsx saved

{com}. di 17.13+3.24
{res}20.37
{txt}
{com}. putexcel D22 = "20.37"
{res}{txt}file TableA_1.xlsx saved

{com}. di 20.36+3.45
{res}23.81
{txt}
{com}. putexcel E22 = "23.81"
{res}{txt}file TableA_1.xlsx saved

{com}. **Drop out rates were calculated using data from the qualtrics browser platform**
. putexcel B23 = "34.13"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C23 = "9.70"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D23 = "10.74"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E23 = "12.92"
{res}{txt}file TableA_1.xlsx saved

{com}. tab pool

       {txt}Pool {c |}      Freq.     Percent        Cum.
{hline 12}{c +}{hline 35}
          A {c |}{res}        110        4.28        4.28
{txt}        AMT {c |}{res}      2,117       82.28       86.55
{txt}          B {c |}{res}        130        5.05       91.61
{txt}          C {c |}{res}        216        8.39      100.00
{txt}{hline 12}{c +}{hline 35}
      Total {c |}{res}      2,573      100.00
{txt}
{com}. putexcel B24 = "110"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel C24 = "130"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel D24 = "216"
{res}{txt}file TableA_1.xlsx saved

{com}. putexcel E24 = "2,117"
{res}{txt}file TableA_1.xlsx saved

{com}.  
. **To Replicate Table A.2**
. reg response democracy stateinterest staterep leaderrep subjectPool, robust

{txt}Linear regression                               Number of obs     = {res}     2,566
                                                {txt}F(5, 2560)        =  {res}    11.53
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0189
                                                {txt}Root MSE          =    {res} .73074

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .0093019{col 27}{space 2} .0230948{col 38}{space 1}    0.40{col 47}{space 3}0.687{col 55}{space 4}-.0359844{col 68}{space 3} .0545883
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0584941{col 27}{space 2}  .023651{col 38}{space 1}   -2.47{col 47}{space 3}0.013{col 55}{space 4}-.1048712{col 68}{space 3} -.012117
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0846641{col 27}{space 2} .0226701{col 38}{space 1}   -3.73{col 47}{space 3}0.000{col 55}{space 4}-.1291176{col 68}{space 3}-.0402105
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1015126{col 27}{space 2} .0175882{col 38}{space 1}    5.77{col 47}{space 3}0.000{col 55}{space 4}  .067024{col 68}{space 3} .1360011
{txt}{space 2}subjectPool {c |}{col 15}{res}{space 2} .0430359{col 27}{space 2} .0193136{col 38}{space 1}    2.23{col 47}{space 3}0.026{col 55}{space 4} .0051641{col 68}{space 3} .0809077
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 1.952993{col 27}{space 2} .0780734{col 38}{space 1}   25.01{col 47}{space 3}0.000{col 55}{space 4}   1.7999{col 68}{space 3} 2.106087
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_2, replace excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_2.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_2.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep if pool=="A", robust

{txt}Linear regression                               Number of obs     = {res}       110
                                                {txt}F(4, 105)         =  {res}     1.64
                                                {txt}Prob > F          = {res}    0.1696
                                                {txt}R-squared         = {res}    0.0584
                                                {txt}Root MSE          =    {res} .71004

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2}-.0480326{col 27}{space 2} .0883549{col 38}{space 1}   -0.54{col 47}{space 3}0.588{col 55}{space 4} -.223224{col 68}{space 3} .1271588
{txt}stateinterest {c |}{col 15}{res}{space 2} .0983348{col 27}{space 2} .1327262{col 38}{space 1}    0.74{col 47}{space 3}0.460{col 55}{space 4}-.1648367{col 68}{space 3} .3615063
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0739443{col 27}{space 2} .1307627{col 38}{space 1}   -0.57{col 47}{space 3}0.573{col 55}{space 4}-.3332226{col 68}{space 3} .1853339
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1993643{col 27}{space 2} .0911423{col 38}{space 1}    2.19{col 47}{space 3}0.031{col 55}{space 4} .0186459{col 68}{space 3} .3800828
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 1.895922{col 27}{space 2} .1495983{col 38}{space 1}   12.67{col 47}{space 3}0.000{col 55}{space 4} 1.599296{col 68}{space 3} 2.192547
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_2, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_2.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_2.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep if pool=="B", robust

{txt}Linear regression                               Number of obs     = {res}       123
                                                {txt}F(4, 118)         =  {res}     1.30
                                                {txt}Prob > F          = {res}    0.2726
                                                {txt}R-squared         = {res}    0.0325
                                                {txt}Root MSE          =    {res}  .7894

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2}-.2567482{col 27}{space 2} .1209588{col 38}{space 1}   -2.12{col 47}{space 3}0.036{col 55}{space 4}-.4962795{col 68}{space 3} -.017217
{txt}stateinterest {c |}{col 15}{res}{space 2}-.1405222{col 27}{space 2} .1509096{col 38}{space 1}   -0.93{col 47}{space 3}0.354{col 55}{space 4}-.4393643{col 68}{space 3} .1583198
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0290821{col 27}{space 2} .1200887{col 38}{space 1}   -0.24{col 47}{space 3}0.809{col 55}{space 4}-.2668904{col 68}{space 3} .2087262
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2}-.0221618{col 27}{space 2} .1002038{col 38}{space 1}   -0.22{col 47}{space 3}0.825{col 55}{space 4}-.2205927{col 68}{space 3}  .176269
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.168241{col 27}{space 2} .1922821{col 38}{space 1}   11.28{col 47}{space 3}0.000{col 55}{space 4}  1.78747{col 68}{space 3} 2.549012
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_2, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_2.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_2.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep if pool=="C", robust

{txt}Linear regression                               Number of obs     = {res}       216
                                                {txt}F(4, 211)         =  {res}     6.30
                                                {txt}Prob > F          = {res}    0.0001
                                                {txt}R-squared         = {res}    0.0759
                                                {txt}Root MSE          =    {res} .70792

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .1870301{col 27}{space 2} .0674608{col 38}{space 1}    2.77{col 47}{space 3}0.006{col 55}{space 4} .0540466{col 68}{space 3} .3200136
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0376782{col 27}{space 2} .0763917{col 38}{space 1}   -0.49{col 47}{space 3}0.622{col 55}{space 4} -.188267{col 68}{space 3} .1129106
{txt}{space 5}staterep {c |}{col 15}{res}{space 2} -.081564{col 27}{space 2} .0766957{col 38}{space 1}   -1.06{col 47}{space 3}0.289{col 55}{space 4}-.2327519{col 68}{space 3} .0696239
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1681348{col 27}{space 2} .0547542{col 38}{space 1}    3.07{col 47}{space 3}0.002{col 55}{space 4} .0601994{col 68}{space 3} .2760701
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.026598{col 27}{space 2} .1095683{col 38}{space 1}   18.50{col 47}{space 3}0.000{col 55}{space 4}  1.81061{col 68}{space 3} 2.242587
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_2, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_2.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_2.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep if pool=="AMT", robust

{txt}Linear regression                               Number of obs     = {res}     2,117
                                                {txt}F(4, 2112)        =  {res}    11.51
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0178
                                                {txt}Root MSE          =    {res} .72853

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .0058179{col 27}{space 2} .0253901{col 38}{space 1}    0.23{col 47}{space 3}0.819{col 55}{space 4}-.0439743{col 68}{space 3} .0556101
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0669917{col 27}{space 2}  .025783{col 38}{space 1}   -2.60{col 47}{space 3}0.009{col 55}{space 4}-.1175543{col 68}{space 3}-.0164291
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0899774{col 27}{space 2} .0248077{col 38}{space 1}   -3.63{col 47}{space 3}0.000{col 55}{space 4}-.1386275{col 68}{space 3}-.0413274
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .0982866{col 27}{space 2} .0192196{col 38}{space 1}    5.11{col 47}{space 3}0.000{col 55}{space 4} .0605952{col 68}{space 3}  .135978
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.130816{col 27}{space 2}  .033719{col 38}{space 1}   63.19{col 47}{space 3}0.000{col 55}{space 4}  2.06469{col 68}{space 3} 2.196942
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_2, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_2.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_2.txt""':seeout}

{com}. 
. **To Replicate Table A.3**
. reg response i.democracy i.stateinterest i.staterep i.leaderrep subjectPool, robust

{txt}Linear regression                               Number of obs     = {res}     2,566
                                                {txt}F(9, 2556)        =  {res}    95.02
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.2495
                                                {txt}Root MSE          =    {res} .63962

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}
{space 11}1  {c |}{col 15}{res}{space 2} .1749869{col 27}{space 2} .0428482{col 38}{space 1}    4.08{col 47}{space 3}0.000{col 55}{space 4} .0909663{col 68}{space 3} .2590076
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.1576137{col 27}{space 2} .0424426{col 38}{space 1}   -3.71{col 47}{space 3}0.000{col 55}{space 4} -.240839{col 68}{space 3}-.0743884
{txt}{space 13} {c |}
stateinterest {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.3434629{col 27}{space 2} .0469413{col 38}{space 1}   -7.32{col 47}{space 3}0.000{col 55}{space 4}-.4355098{col 68}{space 3} -.251416
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.0324429{col 27}{space 2} .0444004{col 38}{space 1}   -0.73{col 47}{space 3}0.465{col 55}{space 4}-.1195072{col 68}{space 3} .0546215
{txt}{space 13} {c |}
{space 5}staterep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.5678332{col 27}{space 2} .0457045{col 38}{space 1}  -12.42{col 47}{space 3}0.000{col 55}{space 4}-.6574548{col 68}{space 3}-.4782116
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.0067302{col 27}{space 2}  .041973{col 38}{space 1}   -0.16{col 47}{space 3}0.873{col 55}{space 4}-.0890348{col 68}{space 3} .0755743
{txt}{space 13} {c |}
{space 4}leaderrep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.5645389{col 27}{space 2} .0348376{col 38}{space 1}  -16.20{col 47}{space 3}0.000{col 55}{space 4}-.6328516{col 68}{space 3}-.4962262
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .0712874{col 27}{space 2}  .031497{col 38}{space 1}    2.26{col 47}{space 3}0.024{col 55}{space 4} .0095253{col 68}{space 3} .1330496
{txt}{space 13} {c |}
{space 2}subjectPool {c |}{col 15}{res}{space 2} .0232508{col 27}{space 2}  .018301{col 38}{space 1}    1.27{col 47}{space 3}0.204{col 55}{space 4}-.0126354{col 68}{space 3} .0591371
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.391822{col 27}{space 2} .0753224{col 38}{space 1}   31.75{col 47}{space 3}0.000{col 55}{space 4} 2.244123{col 68}{space 3} 2.539521
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_3, replace excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_3.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_3.txt""':seeout}

{com}. reg response i.democracy i.stateinterest i.staterep i.leaderrep if pool=="A", robust

{txt}Linear regression                               Number of obs     = {res}       110
                                                {txt}F(8, 101)         =  {res}     7.87
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.3258
                                                {txt}Root MSE          =    {res} .61258

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}
{space 11}1  {c |}{col 15}{res}{space 2} .4160989{col 27}{space 2} .1816554{col 38}{space 1}    2.29{col 47}{space 3}0.024{col 55}{space 4} .0557434{col 68}{space 3} .7764544
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.2170706{col 27}{space 2} .1549288{col 38}{space 1}   -1.40{col 47}{space 3}0.164{col 55}{space 4}-.5244076{col 68}{space 3} .0902665
{txt}{space 13} {c |}
stateinterest {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.1153848{col 27}{space 2} .1689351{col 38}{space 1}   -0.68{col 47}{space 3}0.496{col 55}{space 4}-.4505066{col 68}{space 3}  .219737
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .6042969{col 27}{space 2} .2951247{col 38}{space 1}    2.05{col 47}{space 3}0.043{col 55}{space 4} .0188489{col 68}{space 3} 1.189745
{txt}{space 13} {c |}
{space 5}staterep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.5380172{col 27}{space 2} .2804587{col 38}{space 1}   -1.92{col 47}{space 3}0.058{col 55}{space 4}-1.094372{col 68}{space 3} .0183375
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.0266732{col 27}{space 2} .2166478{col 38}{space 1}   -0.12{col 47}{space 3}0.902{col 55}{space 4}-.4564442{col 68}{space 3} .4030979
{txt}{space 13} {c |}
{space 4}leaderrep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.4924743{col 27}{space 2} .1725738{col 38}{space 1}   -2.85{col 47}{space 3}0.005{col 55}{space 4}-.8348142{col 68}{space 3}-.1501343
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .2518623{col 27}{space 2} .1689526{col 38}{space 1}    1.49{col 47}{space 3}0.139{col 55}{space 4}-.0832942{col 68}{space 3} .5870188
{txt}{space 13} {c |}
{space 8}_cons {c |}{col 15}{res}{space 2} 2.246395{col 27}{space 2} .1555177{col 38}{space 1}   14.44{col 47}{space 3}0.000{col 55}{space 4}  1.93789{col 68}{space 3} 2.554901
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_3, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_3.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_3.txt""':seeout}

{com}. reg response i.democracy i.stateinterest i.staterep i.leaderrep if pool=="B", robust

{txt}Linear regression                               Number of obs     = {res}       123
                                                {txt}F(8, 114)         =  {res}     3.45
                                                {txt}Prob > F          = {res}    0.0013
                                                {txt}R-squared         = {res}    0.1166
                                                {txt}Root MSE          =    {res} .76744

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}
{space 11}1  {c |}{col 15}{res}{space 2}  .034179{col 27}{space 2} .2077506{col 38}{space 1}    0.16{col 47}{space 3}0.870{col 55}{space 4}-.3773734{col 68}{space 3} .4457313
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.8550224{col 27}{space 2} .2153485{col 38}{space 1}   -3.97{col 47}{space 3}0.000{col 55}{space 4}-1.281626{col 68}{space 3}-.4284187
{txt}{space 13} {c |}
stateinterest {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.4132237{col 27}{space 2} .2409934{col 38}{space 1}   -1.71{col 47}{space 3}0.089{col 55}{space 4}-.8906297{col 68}{space 3} .0641823
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .1824833{col 27}{space 2} .3111498{col 38}{space 1}    0.59{col 47}{space 3}0.559{col 55}{space 4}-.4339021{col 68}{space 3} .7988686
{txt}{space 13} {c |}
{space 5}staterep {c |}
{space 11}1  {c |}{col 15}{res}{space 2} .0864421{col 27}{space 2} .2244967{col 38}{space 1}    0.39{col 47}{space 3}0.701{col 55}{space 4}-.3582841{col 68}{space 3} .5311684
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.0803004{col 27}{space 2} .2552625{col 38}{space 1}   -0.31{col 47}{space 3}0.754{col 55}{space 4}-.5859736{col 68}{space 3} .4253727
{txt}{space 13} {c |}
{space 4}leaderrep {c |}
{space 11}1  {c |}{col 15}{res}{space 2} .2212079{col 27}{space 2} .2544868{col 38}{space 1}    0.87{col 47}{space 3}0.387{col 55}{space 4}-.2829285{col 68}{space 3} .7253444
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .1570022{col 27}{space 2}  .242912{col 38}{space 1}    0.65{col 47}{space 3}0.519{col 55}{space 4}-.3242045{col 68}{space 3}  .638209
{txt}{space 13} {c |}
{space 8}_cons {c |}{col 15}{res}{space 2} 1.931969{col 27}{space 2} .2444084{col 38}{space 1}    7.90{col 47}{space 3}0.000{col 55}{space 4} 1.447798{col 68}{space 3}  2.41614
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_3, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_3.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_3.txt""':seeout}

{com}. reg response i.democracy i.stateinterest i.staterep i.leaderrep if pool=="C", robust

{txt}Linear regression                               Number of obs     = {res}       216
                                                {txt}F(8, 207)         =  {res}    13.17
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.3464
                                                {txt}Root MSE          =    {res} .60108

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}
{space 11}1  {c |}{col 15}{res}{space 2} .1854492{col 27}{space 2} .1730152{col 38}{space 1}    1.07{col 47}{space 3}0.285{col 55}{space 4}-.1556485{col 68}{space 3}  .526547
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .0969899{col 27}{space 2} .1271391{col 38}{space 1}    0.76{col 47}{space 3}0.446{col 55}{space 4}-.1536635{col 68}{space 3} .3476434
{txt}{space 13} {c |}
stateinterest {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.3295273{col 27}{space 2} .1443955{col 38}{space 1}   -2.28{col 47}{space 3}0.023{col 55}{space 4}-.6142018{col 68}{space 3}-.0448529
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.0652084{col 27}{space 2} .1328196{col 38}{space 1}   -0.49{col 47}{space 3}0.624{col 55}{space 4}-.3270609{col 68}{space 3} .1966441
{txt}{space 13} {c |}
{space 5}staterep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.5838015{col 27}{space 2} .1443233{col 38}{space 1}   -4.05{col 47}{space 3}0.000{col 55}{space 4}-.8683335{col 68}{space 3}-.2992695
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.1664743{col 27}{space 2} .1370092{col 38}{space 1}   -1.22{col 47}{space 3}0.226{col 55}{space 4}-.4365866{col 68}{space 3}  .103638
{txt}{space 13} {c |}
{space 4}leaderrep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.5308608{col 27}{space 2} .1128317{col 38}{space 1}   -4.70{col 47}{space 3}0.000{col 55}{space 4}-.7533073{col 68}{space 3}-.3084142
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .2253399{col 27}{space 2} .0908962{col 38}{space 1}    2.48{col 47}{space 3}0.014{col 55}{space 4}  .046139{col 68}{space 3} .4045408
{txt}{space 13} {c |}
{space 8}_cons {c |}{col 15}{res}{space 2} 2.476384{col 27}{space 2} .0932719{col 38}{space 1}   26.55{col 47}{space 3}0.000{col 55}{space 4} 2.292499{col 68}{space 3} 2.660268
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_3, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_3.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_3.txt""':seeout}

{com}. reg response i.democracy i.stateinterest i.staterep i.leaderrep if pool=="AMT", robust

{txt}Linear regression                               Number of obs     = {res}     2,117
                                                {txt}F(8, 2108)        =  {res}   109.64
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.2794
                                                {txt}Root MSE          =    {res}  .6246

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}
{space 11}1  {c |}{col 15}{res}{space 2}  .187899{col 27}{space 2} .0454214{col 38}{space 1}    4.14{col 47}{space 3}0.000{col 55}{space 4} .0988236{col 68}{space 3} .2769743
{txt}{space 11}2  {c |}{col 15}{res}{space 2}-.1583708{col 27}{space 2}  .045574{col 38}{space 1}   -3.48{col 47}{space 3}0.001{col 55}{space 4}-.2477456{col 68}{space 3} -.068996
{txt}{space 13} {c |}
stateinterest {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.3592412{col 27}{space 2} .0530465{col 38}{space 1}   -6.77{col 47}{space 3}0.000{col 55}{space 4}-.4632701{col 68}{space 3}-.2552123
{txt}{space 11}2  {c |}{col 15}{res}{space 2} -.067804{col 27}{space 2} .0479356{col 38}{space 1}   -1.41{col 47}{space 3}0.157{col 55}{space 4}-.1618101{col 68}{space 3} .0262021
{txt}{space 13} {c |}
{space 5}staterep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.6350966{col 27}{space 2} .0481684{col 38}{space 1}  -13.18{col 47}{space 3}0.000{col 55}{space 4}-.7295591{col 68}{space 3}-.5406341
{txt}{space 11}2  {c |}{col 15}{res}{space 2}  .023451{col 27}{space 2} .0451424{col 38}{space 1}    0.52{col 47}{space 3}0.603{col 55}{space 4}-.0650773{col 68}{space 3} .1119794
{txt}{space 13} {c |}
{space 4}leaderrep {c |}
{space 11}1  {c |}{col 15}{res}{space 2}-.6071598{col 27}{space 2} .0374852{col 38}{space 1}  -16.20{col 47}{space 3}0.000{col 55}{space 4}-.6806716{col 68}{space 3}-.5336479
{txt}{space 11}2  {c |}{col 15}{res}{space 2} .0609416{col 27}{space 2} .0338409{col 38}{space 1}    1.80{col 47}{space 3}0.072{col 55}{space 4}-.0054235{col 68}{space 3} .1273067
{txt}{space 13} {c |}
{space 8}_cons {c |}{col 15}{res}{space 2} 2.508485{col 27}{space 2} .0313121{col 38}{space 1}   80.11{col 47}{space 3}0.000{col 55}{space 4} 2.447079{col 68}{space 3} 2.569891
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_3, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_3.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_3.txt""':seeout}

{com}. 
. **To Replicate Table A.4**
. putexcel set TableA_4.xlsx, sheet(Sheet1) replace
{res}{txt}Note: file will be replaced when the first {cmd:putexcel} command is issued

{com}. putexcel A2 = "Regime Type"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel A4 = "State Interest"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel A6 = "Past State Behavior"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel A8 = "Past Leader Behavior"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel B1 = "A vs. B"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel C1 = "A vs. C"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel D1 = "B vs. C"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel E1 = "A vs. MTurk"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel F1 = "B vs. Mturk"
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel G1 = "C vs. MTurk"
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}          B {c |}  {res} 1.9090909   .76500149          33
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}         2   .70710678          57

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .647727273      1   .647727273      1.30     0.2587
{txt} Within groups     {res} 27.3522727     55    .49731405
{txt}{hline 72}
    Total          {res}         28     56           .5

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2601{txt}  Prob>chi2 = {res}0.262
{txt}
{com}. putexcel B2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel B3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3880597   .65029653          67

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 2.58777334      1   2.58777334      6.64     0.0122
{txt} Within groups     {res} 25.3226744     65   .389579606
{txt}{hline 72}
    Total          {res} 27.9104478     66   .422885572

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0248{txt}  Prob>chi2 = {res}0.875
{txt}
{com}. putexcel C2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel C3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 1.9090909   .76500149          33
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.2631579   .75486725          76

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 7.31189496      1   7.31189496     15.27     0.0002
{txt} Within groups     {res} 35.4249471     74   .478715502
{txt}{hline 72}
    Total          {res} 42.7368421     75   .569824561

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.3542{txt}  Prob>chi2 = {res}0.245
{txt}
{com}. putexcel D2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel D3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3108696   .71483754         460

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .874780614      1   .874780614      1.71     0.1910
{txt} Within groups     {res} 233.670872    458    .51019841
{txt}{hline 72}
    Total          {res} 234.545652    459   .510992706

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.0139{txt}  Prob>chi2 = {res}0.314
{txt}
{com}. putexcel E2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel E3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}          B {c |}  {res} 1.9090909   .76500149          33
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.2921109   .72939035         469

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 5.20766595      1   5.20766595      9.98     0.0017
{txt} Within groups     {res} 243.773144    467   .521998168
{txt}{hline 72}
    Total          {res}  248.98081    468   .532010278

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.2323{txt}  Prob>chi2 = {res}0.630
{txt}
{com}. putexcel F2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel F3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3402923   .71378002         479

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  1.7888131      1    1.7888131      3.53     0.0609
{txt} Within groups     {res} 241.743546    477   .506799887
{txt}{hline 72}
    Total          {res} 243.532359    478   .509481923

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2263{txt}  Prob>chi2 = {res}0.268
{txt}
{com}. putexcel G2 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel G3 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}          B {c |}  {res} 1.8518519   .81823937          27
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0212766   .76582895          47

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}   1.821316      1     1.821316      3.26     0.0778
{txt} Within groups     {res} 25.1574074     45   .559053498
{txt}{hline 72}
    Total          {res} 26.9787234     46   .586493987

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2722{txt}  Prob>chi2 = {res}0.259
{txt}
{com}. putexcel B4 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel B5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}    2.1625   .73680374          80

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .204166667      1   .204166667      0.37     0.5431
{txt} Within groups     {res} 42.6833333     78   .547222222
{txt}{hline 72}
    Total          {res}    42.8875     79   .542879747

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.9163{txt}  Prob>chi2 = {res}0.338
{txt}
{com}. putexcel C4 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel C5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 1.8518519   .81823937          27
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  2.045977   .79105531          87

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.47535121      1   1.47535121      2.40     0.1254
{txt} Within groups     {res} 52.3407407     85    .61577342
{txt}{hline 72}
    Total          {res}  53.816092     86   .625768511

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1364{txt}  Prob>chi2 = {res}0.712
{txt}
{com}. putexcel D4 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel D5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0946237    .7425442         465

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .504536668      1   .504536668      0.91     0.3393
{txt} Within groups     {res} 255.332022    463   .551473051
{txt}{hline 72}
    Total          {res} 255.836559    464   .551371895

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.7967{txt}  Prob>chi2 = {res}0.372
{txt}
{com}. putexcel E4 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel E5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}          B {c |}  {res} 1.8518519   .81823937          27
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0741525   .75207379         472

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.41523114      1   1.41523114      2.51     0.1138
{txt} Within groups     {res}  264.98943    470   .563807298
{txt}{hline 72}
    Total          {res} 266.404661    471   .565614992

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4283{txt}  Prob>chi2 = {res}0.513
{txt}
{com}. putexcel F4 = (r(F)) 
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel F5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0930693   .74884268         505

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .110386769      1   .110386769      0.20     0.6577
{txt} Within groups     {res} 282.515356    503   .561660747
{txt}{hline 72}
    Total          {res} 282.625743    504   .560765362

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0946{txt}  Prob>chi2 = {res}0.758
{txt}
{com}. putexcel G4 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel G5 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}          B {c |}  {res} 2.1219512   .84247024          41
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0526316   .83283193          57

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .701861361      1   .701861361      1.01     0.3188
{txt} Within groups     {res} 38.1402439     55    .69345898
{txt}{hline 72}
    Total          {res} 38.8421053     56   .693609023

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0406{txt}  Prob>chi2 = {res}0.840
{txt}
{com}. putexcel B6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel B7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}      1.96   .72484854          75

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .146949153      1   .146949153      0.28     0.6003
{txt} Within groups     {res} 38.7330508     73   .530589738
{txt}{hline 72}
    Total          {res}      38.88     74   .525405405

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4233{txt}  Prob>chi2 = {res}0.515
{txt}
{com}. putexcel C6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel C7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.1219512   .84247024          41
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}      2.04   .76435752         100

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  .46670525      1    .46670525      0.80     0.3741
{txt} Within groups     {res} 57.3732947     98   .585441783
{txt}{hline 72}
    Total          {res}      57.84     99   .584242424

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.4661{txt}  Prob>chi2 = {res}0.226
{txt}
{com}. putexcel D6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel D7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.9889868   .72627286         454

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .215481866      1   .215481866      0.41     0.5233
{txt} Within groups     {res} 238.729452    452   .528162505
{txt}{hline 72}
    Total          {res} 238.944934    453    .52747226

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.3526{txt}  Prob>chi2 = {res}0.553
{txt}
{com}. putexcel E6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel E7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}          B {c |}  {res} 2.1219512   .84247024          41
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0041754    .7346642         479

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .621953312      1   .621953312      1.15     0.2835
{txt} Within groups     {res} 257.369696    477   .539559111
{txt}{hline 72}
    Total          {res} 257.991649    478   .539731484

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.8212{txt}  Prob>chi2 = {res}0.177
{txt}
{com}. putexcel F6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel F7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.9919517   .72117708         497

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .005303939      1   .005303939      0.01     0.9197
{txt} Within groups     {res} 257.962503    495   .521136369
{txt}{hline 72}
    Total          {res} 257.967807    496   .520096385

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0566{txt}  Prob>chi2 = {res}0.812
{txt}
{com}. putexcel G6 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel G7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}          B {c |}  {res} 2.0091743   .79925211         109
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0502513   .77033866         199

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .406661749      1   .406661749      0.68     0.4091
{txt} Within groups     {res} 117.090826    197   .594369674
{txt}{hline 72}
    Total          {res} 117.497487    198   .593421654

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6741{txt}  Prob>chi2 = {res}0.412
{txt}
{com}. putexcel B8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel B9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1547619    .7494069         252

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  .41984127      1    .41984127      0.75     0.3883
{txt} Within groups     {res} 140.544444    250   .562177778
{txt}{hline 72}
    Total          {res} 140.964286    251     .5616107

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1040{txt}  Prob>chi2 = {res}0.747
{txt}
{com}. putexcel C8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel C9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.0091743   .79925211         109
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1143911   .77806473         271

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 2.01860441      1   2.01860441      3.36     0.0678
{txt} Within groups     {res}  161.43527    269   .600131116
{txt}{hline 72}
    Total          {res} 163.453875    270   .605384721

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.3685{txt}  Prob>chi2 = {res}0.544
{txt}
{com}. putexcel D8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel D9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1351508   .74312865       1,724

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .117327129      1   .117327129      0.21     0.6450
{txt} Within groups     {res} 951.392534   1722   .552492761
{txt}{hline 72}
    Total          {res} 951.509861   1723   .552240198

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0225{txt}  Prob>chi2 = {res}0.881
{txt}
{com}. putexcel E8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel E9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}          B {c |}  {res} 2.0091743   .79925211         109
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1290878   .74773107       1,743

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.67189022      1   1.67189022      2.99     0.0838
{txt} Within groups     {res} 972.283359   1741   .558462584
{txt}{hline 72}
    Total          {res}  973.95525   1742   .559101751

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.0918{txt}  Prob>chi2 = {res}0.296
{txt}
{com}. putexcel F8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel F9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1414254   .74492824       1,796

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .340972898      1   .340972898      0.61     0.4333
{txt} Within groups     {res} 995.736978   1794   .555037335
{txt}{hline 72}
    Total          {res} 996.077951   1795   .554918079

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1030{txt}  Prob>chi2 = {res}0.748
{txt}
{com}. putexcel G8 = (r(F))
{res}{txt}file TableA_4.xlsx saved

{com}. putexcel G9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_4.xlsx saved

{com}. 
. **To Replicate Table A.5**
. putexcel set TableA_5.xlsx, sheet(Sheet1) replace
{res}{txt}Note: file will be replaced when the first {cmd:putexcel} command is issued

{com}. putexcel A2 = "Partisanship"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A4 = "Political Affiliation"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A6 = "Gender"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A8 = "Interest in Int'l Politics"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A10 = "Attention to Int'l Politics"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A12 = "Impact of Int'l Leaders (mean)"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel A14 = "Acceptability of Use of Force (mean)"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B1 = "A vs. B"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C1 = "A vs. C"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D1 = "B vs. C"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E1 = "A vs. MTurk"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F1 = "B vs. Mturk"
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G1 = "C vs. MTurk"
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="A"|pool=="B", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.3   1.0004586         110
{txt}          B {c |}  {res} 2.2076923   .94578751         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}      2.25   .97026934         240

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .507692308      1   .507692308      0.54     0.4639
{txt} Within groups     {res} 224.492308    238    .94324499
{txt}{hline 72}
    Total          {res}        225    239   .941422594

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.3725{txt}  Prob>chi2 = {res}0.542
{txt}
{com}. putexcel B2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="A"|pool=="C", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.3   1.0004586         110
{txt}          C {c |}  {res} 2.0324074   1.1055319         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1226994   1.0771644         326

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 5.21887639      1   5.21887639      4.55     0.0337
{txt} Within groups     {res} 371.873148    324   1.14775663
{txt}{hline 72}
    Total          {res} 377.092025    325   1.16028315

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.4048{txt}  Prob>chi2 = {res}0.236
{txt}
{com}. putexcel C2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="B"|pool=="C", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.2076923   .94578751         130
{txt}          C {c |}  {res} 2.0324074   1.1055319         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0982659   1.0504091         346

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  2.4935037      1    2.4935037      2.27     0.1330
{txt} Within groups     {res} 378.165456    344   1.09931819
{txt}{hline 72}
    Total          {res}  380.65896    345    1.1033593

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  3.8012{txt}  Prob>chi2 = {res}0.051
{txt}
{com}. putexcel D2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="A"|pool=="AMT", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.3   1.0004586         110
{txt}        AMT {c |}  {res} 2.4114313   .94724837       2,117
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.4059273   .95001815       2,227

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.29839697      1   1.29839697      1.44     0.2304
{txt} Within groups     {res} 2007.74336   2225   .902356568
{txt}{hline 72}
    Total          {res} 2009.04176   2226   .902534483

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6381{txt}  Prob>chi2 = {res}0.424
{txt}
{com}. putexcel E2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="B"|pool=="AMT", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.4114313   .94724837       2,117
{txt}          B {c |}  {res} 2.2076923   .94578751         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  2.399644   .94814806       2,247

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 5.08404423      1   5.08404423      5.67     0.0174
{txt} Within groups     {res} 2014.03567   2245   .897120566
{txt}{hline 72}
    Total          {res} 2019.11972   2246   .898984735

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0006{txt}  Prob>chi2 = {res}0.981
{txt}
{com}. putexcel F2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway party pool if pool=="C"|pool=="AMT", t

            {txt}{c |}          Summary of party
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.4114313   .94724837       2,117
{txt}          C {c |}  {res} 2.0324074   1.1055319         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3763395   .96898161       2,333

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 28.1574277      1   28.1574277     30.37     0.0000
{txt} Within groups     {res} 2161.41651   2331   .927248611
{txt}{hline 72}
    Total          {res} 2189.57394   2332    .93892536

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 10.1238{txt}  Prob>chi2 = {res}0.001
{txt}
{com}. putexcel G2 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G3 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="A"|pool=="B", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.7222222   1.4840796         108
{txt}          B {c |}  {res} 5.3076923   1.5889451         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 5.0420168   1.5665003         238

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 20.2208576      1   20.2208576      8.50     0.0039
{txt} Within groups     {res} 561.358974    236   2.37863972
{txt}{hline 72}
    Total          {res} 581.579832    237   2.45392334

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.5402{txt}  Prob>chi2 = {res}0.462
{txt}
{com}. putexcel B4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="A"|pool=="C", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.7222222   1.4840796         108
{txt}          C {c |}  {res} 4.0049751   2.2638408         201
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 4.2556634   2.0519254         309

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 36.1408975      1   36.1408975      8.80     0.0032
{txt} Within groups     {res} 1260.66169    307   4.10638987
{txt}{hline 72}
    Total          {res} 1296.80259    308   4.21039802

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 22.2576{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel C4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="B"|pool=="C", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 5.3076923   1.5889451         130
{txt}          C {c |}  {res} 4.0049751   2.2638408         201
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 4.5166163   2.1210765         331

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 133.971278      1   133.971278     32.63     0.0000
{txt} Within groups     {res} 1350.68733    329   4.10543262
{txt}{hline 72}
    Total          {res} 1484.65861    330   4.49896549

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 18.2939{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel D4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="A"|pool=="AMT", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.7222222   1.4840796         108
{txt}        AMT {c |}  {res} 4.6874695   1.7028911       2,051
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  4.689208   1.6923283       2,159

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .123912111      1   .123912111      0.04     0.8353
{txt} Within groups     {res} 6180.33463   2157   2.86524554
{txt}{hline 72}
    Total          {res} 6180.45855   2158   2.86397523

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  3.5352{txt}  Prob>chi2 = {res}0.060
{txt}
{com}. putexcel E4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="B"|pool=="AMT", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 4.6874695   1.7028911       2,051
{txt}          B {c |}  {res} 5.3076923   1.5889451         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 4.7244383   1.7023173       2,181

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 47.0271624      1   47.0271624     16.34     0.0001
{txt} Within groups     {res} 6270.36027   2179   2.87763207
{txt}{hline 72}
    Total          {res} 6317.38744   2180   2.89788415

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.1152{txt}  Prob>chi2 = {res}0.291
{txt}
{com}. putexcel F4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polaffil pool if pool=="C"|pool=="AMT", t

            {txt}{c |}         Summary of polaffil
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 4.6874695   1.7028911       2,051
{txt}          C {c |}  {res} 4.0049751   2.2638408         201
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 4.6265542   1.7703481       2,252

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 85.2690687      1   85.2690687     27.53     0.0000
{txt} Within groups     {res} 6969.66299   2250     3.097628
{txt}{hline 72}
    Total          {res} 7054.93206   2251   3.13413241

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 34.5068{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel G4 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G5 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="A"|pool=="B", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 1.5321101   .50127259         109
{txt}          B {c |}  {res} 1.4409449   .49846659         127
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.4830508   .50077473         236

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .487502097      1   .487502097      1.95     0.1637
{txt} Within groups     {res} 58.4447013    234   .249763681
{txt}{hline 72}
    Total          {res} 58.9322034    235   .250775334

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0037{txt}  Prob>chi2 = {res}0.952
{txt}
{com}. putexcel B6 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B7 = (Ftail(r(df_m), r(df_r), r(F))) 
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="A"|pool=="C", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 1.5321101   .50127259         109
{txt}          C {c |}  {res} 1.4398148   .49751752         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.4707692   .49991452         325

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .617100421      1   .617100421      2.48     0.1162
{txt} Within groups     {res} 80.3552073    323   .248777731
{txt}{hline 72}
    Total          {res} 80.9723077    324    .24991453

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0081{txt}  Prob>chi2 = {res}0.928
{txt}
{com}. putexcel C6 = (r(F))   
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="B"|pool=="C", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 1.4409449   .49846659         127
{txt}          C {c |}  {res} 1.4398148   .49751752         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.4402332   .49714031         343

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .000102134      1   .000102134      0.00     0.9838
{txt} Within groups     {res} 84.5246792    341    .24787296
{txt}{hline 72}
    Total          {res} 84.5247813    342   .247148483

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0006{txt}  Prob>chi2 = {res}0.981
{txt}
{com}. putexcel D6 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="A"|pool=="AMT", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 1.5321101   .50127259         109
{txt}        AMT {c |}  {res} 1.4323557   .49552033       2,114
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  1.437247   .49615803       2,223

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.03146824      1   1.03146824      4.20     0.0406
{txt} Within groups     {res} 545.964483   2221   .245819218
{txt}{hline 72}
    Total          {res} 546.995951   2222   .246172795

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0275{txt}  Prob>chi2 = {res}0.868
{txt}
{com}. putexcel E6 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="B"|pool=="AMT", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.4323557   .49552033       2,114
{txt}          B {c |}  {res} 1.4409449   .49846659         127
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.4328425   .49557992       2,241

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .008838286      1   .008838286      0.04     0.8496
{txt} Within groups     {res} 550.133955   2239   .245705205
{txt}{hline 72}
    Total          {res} 550.142793   2240   .245599461

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0084{txt}  Prob>chi2 = {res}0.927
{txt}
{com}. putexcel F6 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway gender pool if pool=="C"|pool=="AMT", t

            {txt}{c |}          Summary of gender
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.4323557   .49552033       2,114
{txt}          C {c |}  {res} 1.4398148   .49751752         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.4330472   .49560341       2,330

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .010903719      1   .010903719      0.04     0.8332
{txt} Within groups     {res} 572.044461   2328   .245723566
{txt}{hline 72}
    Total          {res} 572.055365   2329   .245622741

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0063{txt}  Prob>chi2 = {res}0.937
{txt}
{com}. putexcel G6 = (r(F)) 
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G7 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="A"|pool=="B", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.2844037   .82878473         109
{txt}          B {c |}  {res} 2.3076923   1.2749595         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  3.209205    1.471779         239

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 231.663955      1   231.663955    193.41     0.0000
{txt} Within groups     {res} 283.875794    237   1.19778816
{txt}{hline 72}
    Total          {res} 515.539749    238    2.1661334

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 20.5770{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel B8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="A"|pool=="C", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.2844037   .82878473         109
{txt}          C {c |}  {res} 3.7175926   .81204063         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.9076923   .85928259         325

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 23.2741348      1   23.2741348     34.81     0.0000
{txt} Within groups     {res} 215.956634    323   .668596391
{txt}{hline 72}
    Total          {res} 239.230769    324   .738366572

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0599{txt}  Prob>chi2 = {res}0.807
{txt}
{com}. putexcel C8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="B"|pool=="C", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.3076923   1.2749595         130
{txt}          C {c |}  {res} 3.7175926   .81204063         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.1878613   1.2191575         346

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 161.323562      1   161.323562    157.90     0.0000
{txt} Within groups     {res} 351.465456    344   1.02170191
{txt}{hline 72}
    Total          {res} 512.789017    345   1.48634498

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 34.1337{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel D8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="A"|pool=="AMT", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.2844037   .82878473         109
{txt}        AMT {c |}  {res} 3.4067076   1.0327402       2,117
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.4496855   1.0409297       2,226

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 79.8565416      1   79.8565416     76.19     0.0000
{txt} Within groups     {res} 2331.00824   2224   1.04811522
{txt}{hline 72}
    Total          {res} 2410.86478   2225   1.08353473

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  8.7136{txt}  Prob>chi2 = {res}0.003
{txt}
{com}. putexcel E8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="B"|pool=="AMT", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.4067076   1.0327402       2,117
{txt}          B {c |}  {res} 2.3076923   1.2749595         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.3431242   1.0789105       2,247

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 147.934209      1   147.934209    134.65     0.0000
{txt} Within groups     {res} 2466.51706   2245    1.0986713
{txt}{hline 72}
    Total          {res} 2614.45127   2246   1.16404776

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 12.2176{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel F8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway polint pool if pool=="C"|pool=="AMT", t

            {txt}{c |}          Summary of polint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.4067076   1.0327402       2,117
{txt}          C {c |}  {res} 3.7175926   .81204063         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.4354908   1.0181756       2,333

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 18.9434629      1   18.9434629     18.41     0.0000
{txt} Within groups     {res}  2398.5979   2331   1.02899953
{txt}{hline 72}
    Total          {res} 2417.54136   2332   1.03668155

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 19.7967{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel G8 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G9 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="A"|pool=="B", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.7909091   .92958958         110
{txt}          B {c |}  {res} 2.6384615   1.0417922         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.1666667    1.144997         240

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 79.1347319      1   79.1347319     80.42     0.0000
{txt} Within groups     {res} 234.198601    238   .984027737
{txt}{hline 72}
    Total          {res} 313.333333    239   1.31101813

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.5150{txt}  Prob>chi2 = {res}0.218
{txt}
{com}. putexcel B10 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="A"|pool=="C", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.7909091   .92958958         110
{txt}          C {c |}  {res} 3.2418605   .98924888         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.4276923   1.0023903         325

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 21.9366043      1   21.9366043     23.34     0.0000
{txt} Within groups     {res} 303.614165    323   .939981935
{txt}{hline 72}
    Total          {res} 325.550769    324   1.00478632

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.5491{txt}  Prob>chi2 = {res}0.459
{txt}
{com}. putexcel C10 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="B"|pool=="C", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.6384615   1.0417922         130
{txt}          C {c |}  {res} 3.2418605   .98924888         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.0144928   1.0495397         345

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 29.4965881      1   29.4965881     28.95     0.0000
{txt} Within groups     {res} 349.430948    343   1.01874912
{txt}{hline 72}
    Total          {res} 378.927536    344   1.10153354

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4333{txt}  Prob>chi2 = {res}0.510
{txt}
{com}. putexcel D10 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="A"|pool=="AMT", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.7909091   .92958958         110
{txt}        AMT {c |}  {res} 3.2158715   .98244196       2,117
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.2442748   .98759478       2,227

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 34.5768777      1   34.5768777     36.01     0.0000
{txt} Within groups     {res} 2136.53763   2225    .96024163
{txt}{hline 72}
    Total          {res}  2171.1145   2226   .975343443

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6115{txt}  Prob>chi2 = {res}0.434
{txt}
{com}. putexcel E10 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="B"|pool=="AMT", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.2158715   .98244196       2,117
{txt}          B {c |}  {res} 2.6384615   1.0417922         130
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.1824655   .99490893       2,247

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 40.8347317      1   40.8347317     42.01     0.0000
{txt} Within groups     {res} 2182.35441   2245   .972095505
{txt}{hline 72}
    Total          {res} 2223.18914   2246   .989843785

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.8640{txt}  Prob>chi2 = {res}0.353
{txt}
{com}. putexcel F10 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway eventint pool if pool=="C"|pool=="AMT", t

            {txt}{c |}         Summary of eventint
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.2158715   .98244196       2,117
{txt}          C {c |}  {res} 3.2418605   .98924888         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.2182676   .98288699       2,332

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .131828163      1   .131828163      0.14     0.7119
{txt} Within groups     {res} 2251.76997   2330   .966424881
{txt}{hline 72}
    Total          {res}  2251.9018   2331   .966066839

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0186{txt}  Prob>chi2 = {res}0.892
{txt}
{com}. putexcel G10 = (r(F)) 
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G11 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="A"|pool=="B", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.0636364   .71391507         110
{txt}          B {c |}  {res} 3.0396825   .72554304         126
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.5169492   .88228958         236

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 61.5760706      1   61.5760706    118.73     0.0000
{txt} Within groups     {res} 121.356133    234   .518615952
{txt}{hline 72}
    Total          {res} 182.932203    235   .778434908

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0302{txt}  Prob>chi2 = {res}0.862
{txt}
{com}. putexcel B12 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="A"|pool=="C", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.0636364   .71391507         110
{txt}          C {c |}  {res} 4.1069767   .67339125         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 4.0923077   .68657939         325

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .136688893      1   .136688893      0.29     0.5910
{txt} Within groups     {res}  152.59408    323   .472427493
{txt}{hline 72}
    Total          {res} 152.730769    324   .471391263

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4975{txt}  Prob>chi2 = {res}0.481
{txt}
{com}. putexcel C12 = (r(F)) 
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="B"|pool=="C", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 3.0396825   .72554304         126
{txt}          C {c |}  {res} 4.1069767   .67339125         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}   3.71261   .86319478         341

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 90.4946549      1   90.4946549    188.39     0.0000
{txt} Within groups     {res} 162.841122    339   .480357293
{txt}{hline 72}
    Total          {res} 253.335777    340   .745105227

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.8861{txt}  Prob>chi2 = {res}0.347
{txt}
{com}. putexcel D12 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="A"|pool=="AMT", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 4.0636364   .71391507         110
{txt}        AMT {c |}  {res} 3.8486065   .76958622       2,117
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.8592277   .76819583       2,227

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 4.83493689      1   4.83493689      8.22     0.0042
{txt} Within groups     {res} 1308.78293   2225   .588217049
{txt}{hline 72}
    Total          {res} 1313.61787   2226    .59012483

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.1143{txt}  Prob>chi2 = {res}0.291
{txt}
{com}. putexcel E12 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="B"|pool=="AMT", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.8486065   .76958622       2,117
{txt}          B {c |}  {res} 3.0396825   .72554304         126
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.8031654   .78932652       2,243

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 77.8175491      1   77.8175491    132.21     0.0000
{txt} Within groups     {res} 1319.02998   2241   .588589905
{txt}{hline 72}
    Total          {res} 1396.84753   2242   .623036363

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.7897{txt}  Prob>chi2 = {res}0.374
{txt}
{com}. putexcel F12 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway LeaderViews pool if pool=="C"|pool=="AMT", t

            {txt}{c |}       Summary of LeaderViews
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 3.8486065   .76958622       2,117
{txt}          C {c |}  {res} 4.1069767   .67339125         215
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.8724271   .76475815       2,332

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 13.0291385      1   13.0291385     22.48     0.0000
{txt} Within groups     {res} 1350.26792   2330   .579514131
{txt}{hline 72}
    Total          {res} 1363.29706   2331   .584855025

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  6.4369{txt}  Prob>chi2 = {res}0.011
{txt}
{com}. putexcel G12 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G13 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="A"|pool=="B", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.1909091   .94546409         110
{txt}          B {c |}  {res} 2.9658793   .87974929         127
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 3.0703235    .9158192         237

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 2.98488899      1   2.98488899      3.60     0.0591
{txt} Within groups     {res} 194.954165    235   .829592193
{txt}{hline 72}
    Total          {res} 197.939054    236   .838724806

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6056{txt}  Prob>chi2 = {res}0.436
{txt}
{com}. putexcel B14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel B15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="A"|pool=="C", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.1909091   .94546409         110
{txt}          C {c |}  {res} 2.6682099   .68085498         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.8445808   .81715137         326

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 19.9128092      1   19.9128092     32.73     0.0000
{txt} Within groups     {res} 197.101509    324   .608337992
{txt}{hline 72}
    Total          {res} 217.014319    325   .667736365

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 16.4251{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel C14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel C15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="B"|pool=="C", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.9658793   .87974929         127
{txt}          C {c |}  {res} 2.6682099   .68085498         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.7784257   .77284215         343

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 7.08649914      1   7.08649914     12.25     0.0005
{txt} Within groups     {res} 197.184965    341   .578255029
{txt}{hline 72}
    Total          {res} 204.271464    342   .597284982

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 10.7663{txt}  Prob>chi2 = {res}0.001
{txt}
{com}. putexcel D14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel D15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="A"|pool=="AMT", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res} 3.1909091   .94546409         110
{txt}        AMT {c |}  {res} 2.7475988   .92819278       2,117
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.7694956   .93379394       2,227

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 20.5498635      1   20.5498635     23.81     0.0000
{txt} Within groups     {res} 1920.45787   2225   .863127133
{txt}{hline 72}
    Total          {res} 1941.00774   2226    .87197113

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0710{txt}  Prob>chi2 = {res}0.790
{txt}
{com}. putexcel E14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel E15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="B"|pool=="AMT", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.7475988   .92819278       2,117
{txt}          B {c |}  {res} 2.9658793   .87974929         127
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.7599525   .92670538       2,244

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 5.70862469      1   5.70862469      6.66     0.0099
{txt} Within groups     {res} 1920.54133   2242   .856619682
{txt}{hline 72}
    Total          {res} 1926.24995   2243   .858782859

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6604{txt}  Prob>chi2 = {res}0.416
{txt}
{com}. putexcel F14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel F15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. oneway UseOfForce pool if pool=="C"|pool=="AMT", t

            {txt}{c |}        Summary of UseOfForce
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.7475988   .92819278       2,117
{txt}          C {c |}  {res} 2.6682099   .68085498         216
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.7402486   .90830077       2,333

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.23532083      1   1.23532083      1.50     0.2212
{txt} Within groups     {res} 1922.68867   2331   .824834265
{txt}{hline 72}
    Total          {res} 1923.92399   2332   .825010288

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res} 31.7087{txt}  Prob>chi2 = {res}0.000
{txt}
{com}. putexcel G14 = (r(F))
{res}{txt}file TableA_5.xlsx saved

{com}. putexcel G15 = (Ftail(r(df_m), r(df_r), r(F)))
{res}{txt}file TableA_5.xlsx saved

{com}. 
. **To Replicate Table A.6**
. putexcel set TableA_6.xlsx, sheet(Sheet1) replace
{res}{txt}Note: file will be replaced when the first {cmd:putexcel} command is issued

{com}. putexcel A2 = "Regime Type"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel A5 = "State Interest"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel A8 = "Past State Behavior"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel A11 = "Past Leader Behavior"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B1 = "A vs. B"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C1 = "A vs. C"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D1 = "B vs. C"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E1 = "A vs. MTurk"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F1 = "B vs. Mturk"
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G1 = "C vs. MTurk"
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}          B {c |}  {res} 1.9090909   .76500149          33
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}         2   .70710678          57

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .647727273      1   .647727273      1.30     0.2587
{txt} Within groups     {res} 27.3522727     55    .49731405
{txt}{hline 72}
    Total          {res}         28     56           .5

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2601{txt}  Prob>chi2 = {res}0.262
{txt}
{com}. esizei 24 2.125 .612 33 1.909 .765, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         24
                                     Group 2 =         33
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .3063531{col 34}{space 3}-.2239168{col 46}{space 3} .8338755
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel B2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3880597   .65029653          67

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 2.58777334      1   2.58777334      6.64     0.0122
{txt} Within groups     {res} 25.3226744     65   .389579606
{txt}{hline 72}
    Total          {res} 27.9104478     66   .422885572

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0248{txt}  Prob>chi2 = {res}0.875
{txt}
{com}. esizei 24 2.125 .612 43 2.535 .631, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         24
                                     Group 2 =         43
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.6566903{col 34}{space 3}-1.166234{col 46}{space 3}-.1423383
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel C2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 1.9090909   .76500149          33
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.2631579   .75486725          76

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 7.31189496      1   7.31189496     15.27     0.0002
{txt} Within groups     {res} 35.4249471     74   .478715502
{txt}{hline 72}
    Total          {res} 42.7368421     75   .569824561

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.3542{txt}  Prob>chi2 = {res}0.245
{txt}
{com}. esizei 33 1.909 .765 43 2.535 .631, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         33
                                     Group 2 =         43
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.9044453{col 34}{space 3}-1.378011{col 46}{space 3}-.4253222
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel D2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     2.125   .61237244          24
{txt}        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3108696   .71483754         460

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .874780614      1   .874780614      1.71     0.1910
{txt} Within groups     {res} 233.670872    458    .51019841
{txt}{hline 72}
    Total          {res} 234.545652    459   .510992706

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.0139{txt}  Prob>chi2 = {res}0.314
{txt}
{com}. esizei 24 2.125 .612 436 2.321 .719, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         24
                                     Group 2 =        436
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.2745063{col 34}{space 3}-.6856806{col 46}{space 3} .1369671
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel E2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}          B {c |}  {res} 1.9090909   .76500149          33
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.2921109   .72939035         469

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 5.20766595      1   5.20766595      9.98     0.0017
{txt} Within groups     {res} 243.773144    467   .521998168
{txt}{hline 72}
    Total          {res}  248.98081    468   .532010278

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.2323{txt}  Prob>chi2 = {res}0.630
{txt}
{com}. esizei 33 1.909 .765 436 2.321 .719, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         33
                                     Group 2 =        436
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.5704431{col 34}{space 3}-.9258882{col 46}{space 3}-.2143935
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel F2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if democracy!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.3211009   .71926826         436
{txt}          C {c |}  {res} 2.5348837   .63052651          43
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.3402923   .71378002         479

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  1.7888131      1    1.7888131      3.53     0.0609
{txt} Within groups     {res} 241.743546    477   .506799887
{txt}{hline 72}
    Total          {res} 243.532359    478   .509481923

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2263{txt}  Prob>chi2 = {res}0.268
{txt}
{com}. esizei 43 2.535 .631 436 2.321 .719, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         43
                                     Group 2 =        436
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .3006933{col 34}{space 3} -.013328{col 46}{space 3} .6144007
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel G2 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G3 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G4 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}          B {c |}  {res} 1.8518519   .81823937          27
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0212766   .76582895          47

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}   1.821316      1     1.821316      3.26     0.0778
{txt} Within groups     {res} 25.1574074     45   .559053498
{txt}{hline 72}
    Total          {res} 26.9787234     46   .586493987

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.2722{txt}  Prob>chi2 = {res}0.259
{txt}
{com}. esizei 20 2.25 .639 27 1.852 .818, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         20
                                     Group 2 =         27
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}  .532322{col 34}{space 3}-.0590659{col 46}{space 3} 1.118009
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel B5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}    2.1625   .73680374          80

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .204166667      1   .204166667      0.37     0.5431
{txt} Within groups     {res} 42.6833333     78   .547222222
{txt}{hline 72}
    Total          {res}    42.8875     79   .542879747

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.9163{txt}  Prob>chi2 = {res}0.338
{txt}
{com}. esizei 20 2.25 .639 60 2.133 .769, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         20
                                     Group 2 =         60
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .1582274{col 34}{space 3} -.348945{col 46}{space 3} .6643896
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel C5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 1.8518519   .81823937          27
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}  2.045977   .79105531          87

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.47535121      1   1.47535121      2.40     0.1254
{txt} Within groups     {res} 52.3407407     85    .61577342
{txt}{hline 72}
    Total          {res}  53.816092     86   .625768511

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1364{txt}  Prob>chi2 = {res}0.712
{txt}
{com}. esizei 27 1.852 .818 60 2.133 .769, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         27
                                     Group 2 =         60
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.3582752{col 34}{space 3}-.8146126{col 46}{space 3} .1001388
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel D5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}      2.25   .63866637          20
{txt}        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0946237    .7425442         465

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .504536668      1   .504536668      0.91     0.3393
{txt} Within groups     {res} 255.332022    463   .551473051
{txt}{hline 72}
    Total          {res} 255.836559    464   .551371895

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.7967{txt}  Prob>chi2 = {res}0.372
{txt}
{com}. esizei 20 2.25 .639 445 2.088 .747, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         20
                                     Group 2 =        445
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .2180711{col 34}{space 3}-.2302681{col 46}{space 3} .6661751
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel E5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}          B {c |}  {res} 1.8518519   .81823937          27
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0741525   .75207379         472

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.41523114      1   1.41523114      2.51     0.1138
{txt} Within groups     {res}  264.98943    470   .563807298
{txt}{hline 72}
    Total          {res} 266.404661    471   .565614992

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4283{txt}  Prob>chi2 = {res}0.513
{txt}
{com}. esizei 27 1.852 .818 445 2.088 .747, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         27
                                     Group 2 =        445
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.3142046{col 34}{space 3}-.7030263{col 46}{space 3} .0749505
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel F5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if stateinterest!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.0876404   .74673768         445
{txt}          C {c |}  {res} 2.1333333    .7694741          60
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0930693   .74884268         505

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .110386769      1   .110386769      0.20     0.6577
{txt} Within groups     {res} 282.515356    503   .561660747
{txt}{hline 72}
    Total          {res} 282.625743    504   .560765362

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0946{txt}  Prob>chi2 = {res}0.758
{txt}
{com}. esizei 60 2.133 .769 445 2.088 .747, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         60
                                     Group 2 =        445
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .0600309{col 34}{space 3}-.2095737{col 46}{space 3} .3295759
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel G5 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G6 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G7 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}          B {c |}  {res} 2.1219512   .84247024          41
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0526316   .83283193          57

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .701861361      1   .701861361      1.01     0.3188
{txt} Within groups     {res} 38.1402439     55    .69345898
{txt}{hline 72}
    Total          {res} 38.8421053     56   .693609023

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0406{txt}  Prob>chi2 = {res}0.840
{txt}
{com}. esizei 16 1.875 .806 41 2.122 .842, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         16
                                     Group 2 =         41
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.2967551{col 34}{space 3}-.8758059{col 46}{space 3} .2849638
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel B8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}      1.96   .72484854          75

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .146949153      1   .146949153      0.28     0.6003
{txt} Within groups     {res} 38.7330508     73   .530589738
{txt}{hline 72}
    Total          {res}      38.88     74   .525405405

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.4233{txt}  Prob>chi2 = {res}0.515
{txt}
{com}. esizei 16 1.875 .806 59 1.983 .707, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         16
                                     Group 2 =         59
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.1482617{col 34}{space 3}-.7007268{col 46}{space 3} .4052153
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel C8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.1219512   .84247024          41
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res}      2.04   .76435752         100

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  .46670525      1    .46670525      0.80     0.3741
{txt} Within groups     {res} 57.3732947     98   .585441783
{txt}{hline 72}
    Total          {res}      57.84     99   .584242424

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.4661{txt}  Prob>chi2 = {res}0.226
{txt}
{com}. esizei 41 2.122 .842 59 1.983 .707, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         41
                                     Group 2 =         59
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .1817029{col 34}{space 3}-.2180689{col 46}{space 3} .5805524
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel D8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}     1.875   .80622577          16
{txt}        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.9889868   .72627286         454

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .215481866      1   .215481866      0.41     0.5233
{txt} Within groups     {res} 238.729452    452   .528162505
{txt}{hline 72}
    Total          {res} 238.944934    453    .52747226

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.3526{txt}  Prob>chi2 = {res}0.553
{txt}
{com}. esizei 16 1.875 .806 438 1.993 .724, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         16
                                     Group 2 =        438
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}  -.16234{col 34}{space 3}-.6612227{col 46}{space 3} .3367223
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel E8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}          B {c |}  {res} 2.1219512   .84247024          41
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0041754    .7346642         479

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .621953312      1   .621953312      1.15     0.2835
{txt} Within groups     {res} 257.369696    477   .539559111
{txt}{hline 72}
    Total          {res} 257.991649    478   .539731484

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.8212{txt}  Prob>chi2 = {res}0.177
{txt}
{com}. esizei 41 2.122 .842 438 1.993 .724, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         41
                                     Group 2 =        438
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .1756001{col 34}{space 3}-.1447864{col 46}{space 3} .4958029
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel F8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if staterep!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 1.9931507   .72386493         438
{txt}          C {c |}  {res} 1.9830508   .70690012          59
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 1.9919517   .72117708         497

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .005303939      1   .005303939      0.01     0.9197
{txt} Within groups     {res} 257.962503    495   .521136369
{txt}{hline 72}
    Total          {res} 257.967807    496   .520096385

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0566{txt}  Prob>chi2 = {res}0.812
{txt}
{com}. esizei 59 1.983 .707 438 1.993 .724, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         59
                                     Group 2 =        438
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.0138499{col 34}{space 3}-.2856529{col 46}{space 3} .2579671
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel G8 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G9 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G10 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="B"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}          B {c |}  {res} 2.0091743   .79925211         109
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.0502513   .77033866         199

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .406661749      1   .406661749      0.68     0.4091
{txt} Within groups     {res} 117.090826    197   .594369674
{txt}{hline 72}
    Total          {res} 117.497487    198   .593421654

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.6741{txt}  Prob>chi2 = {res}0.412
{txt}
{com}. esizei 90 2.1 .735 109 2.009 .799, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         90
                                     Group 2 =        109
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .1180676{col 34}{space 3}-.1614765{col 46}{space 3} .3973128
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel B11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel B13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1547619    .7494069         252

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res}  .41984127      1    .41984127      0.75     0.3883
{txt} Within groups     {res} 140.544444    250   .562177778
{txt}{hline 72}
    Total          {res} 140.964286    251     .5616107

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1040{txt}  Prob>chi2 = {res}0.747
{txt}
{com}. esizei 90 2.1 .735 162 2.185 .758, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         90
                                     Group 2 =        162
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.1133495{col 34}{space 3}-.3711011{col 46}{space 3} .1446283
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel C11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel C13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="B"|pool=="C"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          B {c |}  {res} 2.0091743   .79925211         109
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1143911   .77806473         271

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 2.01860441      1   2.01860441      3.36     0.0678
{txt} Within groups     {res}  161.43527    269   .600131116
{txt}{hline 72}
    Total          {res} 163.453875    270   .605384721

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.3685{txt}  Prob>chi2 = {res}0.544
{txt}
{com}. esizei 109 2.009 .799 162 2.185 .758, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =        109
                                     Group 2 =        162
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.2271784{col 34}{space 3} -.470533{col 46}{space 3} .0165958
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel D11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel D13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="A"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
          A {c |}  {res}       2.1   .73515266          90
{txt}        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1351508   .74312865       1,724

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .117327129      1   .117327129      0.21     0.6450
{txt} Within groups     {res} 951.392534   1722   .552492761
{txt}{hline 72}
    Total          {res} 951.509861   1723   .552240198

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.0225{txt}  Prob>chi2 = {res}0.881
{txt}
{com}. esizei 90 2.1 .735 1634 2.137 .744, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =         90
                                     Group 2 =      1,634
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.0497621{col 34}{space 3}-.2619732{col 46}{space 3} .1624634
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel E11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel E13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="B"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}          B {c |}  {res} 2.0091743   .79925211         109
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1290878   .74773107       1,743

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} 1.67189022      1   1.67189022      2.99     0.0838
{txt} Within groups     {res} 972.283359   1741   .558462584
{txt}{hline 72}
    Total          {res}  973.95525   1742   .559101751

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  1.0918{txt}  Prob>chi2 = {res}0.296
{txt}
{com}. esizei 109 2.009 .799 1634 2.137 .744, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =        109
                                     Group 2 =      1,634
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2}-.1712307{col 34}{space 3}-.3651804{col 46}{space 3} .0227682
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel F11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel F13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. oneway response pool if leaderrep!=0&(pool=="C"|pool=="AMT"), t

            {txt}{c |}         Summary of response
       Pool {c |}        Mean   Std. Dev.       Freq.
{hline 12}{c +}{hline 36}
        AMT {c |}  {res} 2.1370869   .74373996       1,634
{txt}          C {c |}  {res} 2.1851852   .75775266         162
{txt}{hline 12}{c +}{hline 36}
      Total {c |}  {res} 2.1414254   .74492824       1,796

                        {txt}Analysis of Variance
    Source              SS         df      MS            F     Prob > F
{hline 72}
Between groups     {res} .340972898      1   .340972898      0.61     0.4333
{txt} Within groups     {res} 995.736978   1794   .555037335
{txt}{hline 72}
    Total          {res} 996.077951   1795   .554918079

{txt}Bartlett's test for equal variances:  chi2({res}1{txt}) = {res}  0.1030{txt}  Prob>chi2 = {res}0.748
{txt}
{com}. esizei 162 2.185 .758 1634 2.137 .744, cohensd

{txt}Effect size based on mean comparison

                               Obs per group:
                                     Group 1 =        162
                                     Group 2 =      1,634
{col 1}{text}{hline 20}{c TT}{hline 12}{hline 12}{hline 12}
{col 1}{text}        Effect Size{col 21}{c |}   Estimate{col 34}    [95% Conf. Interval]
{col 1}{text}{hline 20}{c +}{hline 12}{hline 12}{hline 12}
{col 1}{text}          Cohen's {it:d}{col 21}{c |}{result}{space 2} .0644064{col 34}{space 3}-.0970587{col 46}{space 3} .2258537
{col 1}{text}{hline 20}{c BT}{hline 12}{hline 12}{hline 12}

{com}. putexcel G11 = (r(d))
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G12 = (r(lb_d)) 
{res}{txt}file TableA_6.xlsx saved

{com}. putexcel G13 = (r(ub_d))
{res}{txt}file TableA_6.xlsx saved

{com}. 
. **To Replicate Table A.7**
. reg response democracy stateinterest staterep leaderrep, robust

{txt}Linear regression                               Number of obs     = {res}     2,566
                                                {txt}F(4, 2561)        =  {res}    13.06
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0170
                                                {txt}Root MSE          =    {res} .73132

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .0083243{col 27}{space 2} .0231471{col 38}{space 1}    0.36{col 47}{space 3}0.719{col 55}{space 4}-.0370646{col 68}{space 3} .0537133
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0583588{col 27}{space 2} .0236282{col 38}{space 1}   -2.47{col 47}{space 3}0.014{col 55}{space 4}-.1046911{col 68}{space 3}-.0120264
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0854778{col 27}{space 2} .0227152{col 38}{space 1}   -3.76{col 47}{space 3}0.000{col 55}{space 4}-.1300197{col 68}{space 3}-.0409358
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .1000472{col 27}{space 2} .0176383{col 38}{space 1}    5.67{col 47}{space 3}0.000{col 55}{space 4} .0654605{col 68}{space 3}  .134634
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.114103{col 27}{space 2} .0311144{col 38}{space 1}   67.95{col 47}{space 3}0.000{col 55}{space 4} 2.053091{col 68}{space 3} 2.175115
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, replace excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep male maleDemocracy maleStateInt malestaterep maleLeaderRep, robust

{txt}Linear regression                               Number of obs     = {res}     2,562
                                                {txt}F(9, 2552)        =  {res}     6.07
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0182
                                                {txt}Root MSE          =    {res} .73158

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2} .0103894{col 27}{space 2} .0233366{col 38}{space 1}    0.45{col 47}{space 3}0.656{col 55}{space 4}-.0353711{col 68}{space 3}   .05615
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0597112{col 27}{space 2}  .024392{col 38}{space 1}   -2.45{col 47}{space 3}0.014{col 55}{space 4}-.1075415{col 68}{space 3} -.011881
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0883491{col 27}{space 2} .0228531{col 38}{space 1}   -3.87{col 47}{space 3}0.000{col 55}{space 4}-.1331617{col 68}{space 3}-.0435365
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .0994182{col 27}{space 2}   .01786{col 38}{space 1}    5.57{col 47}{space 3}0.000{col 55}{space 4} .0643967{col 68}{space 3} .1344397
{txt}{space 9}male {c |}{col 15}{res}{space 2} .0000531{col 27}{space 2} .0313873{col 38}{space 1}    0.00{col 47}{space 3}0.999{col 55}{space 4}-.0614941{col 68}{space 3} .0616003
{txt}maleDemocracy {c |}{col 15}{res}{space 2} .0022563{col 27}{space 2} .0233366{col 38}{space 1}    0.10{col 47}{space 3}0.923{col 55}{space 4}-.0435042{col 68}{space 3} .0480168
{txt}{space 1}maleStateInt {c |}{col 15}{res}{space 2} .0125744{col 27}{space 2}  .024392{col 38}{space 1}    0.52{col 47}{space 3}0.606{col 55}{space 4}-.0352558{col 68}{space 3} .0604047
{txt}{space 1}malestaterep {c |}{col 15}{res}{space 2} .0314037{col 27}{space 2} .0228531{col 38}{space 1}    1.37{col 47}{space 3}0.170{col 55}{space 4}-.0134089{col 68}{space 3} .0762163
{txt}maleLeaderRep {c |}{col 15}{res}{space 2} .0027004{col 27}{space 2}   .01786{col 38}{space 1}    0.15{col 47}{space 3}0.880{col 55}{space 4}-.0323211{col 68}{space 3} .0377219
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.113454{col 27}{space 2} .0313873{col 38}{space 1}   67.33{col 47}{space 3}0.000{col 55}{space 4} 2.051907{col 68}{space 3} 2.175001
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep republican republicanDemocracy republicanStateInt republicanLeaderRep republicaStaterep, robust

{txt}Linear regression                               Number of obs     = {res}     1,527
                                                {txt}F(9, 1517)        =  {res}     3.24
                                                {txt}Prob > F          = {res}    0.0007
                                                {txt}R-squared         = {res}    0.0169
                                                {txt}Root MSE          =    {res} .73813

{txt}{hline 20}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 21}{c |}{col 33}    Robust
{col 1}           response{col 21}{c |}      Coef.{col 33}   Std. Err.{col 45}      t{col 53}   P>|t|{col 61}     [95% Con{col 74}f. Interval]
{hline 20}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 10}democracy {c |}{col 21}{res}{space 2}-.0111108{col 33}{space 2} .0339703{col 44}{space 1}   -0.33{col 53}{space 3}0.744{col 61}{space 4}-.0777445{col 74}{space 3} .0555228
{txt}{space 6}stateinterest {c |}{col 21}{res}{space 2}-.0424371{col 33}{space 2} .0336184{col 44}{space 1}   -1.26{col 53}{space 3}0.207{col 61}{space 4}-.1083805{col 74}{space 3} .0235064
{txt}{space 11}staterep {c |}{col 21}{res}{space 2}-.0842456{col 33}{space 2} .0341541{col 44}{space 1}   -2.47{col 53}{space 3}0.014{col 61}{space 4}  -.15124{col 74}{space 3}-.0172513
{txt}{space 10}leaderrep {c |}{col 21}{res}{space 2} .1020512{col 33}{space 2} .0256817{col 44}{space 1}    3.97{col 53}{space 3}0.000{col 61}{space 4} .0516758{col 74}{space 3} .1524266
{txt}{space 9}republican {c |}{col 21}{res}{space 2}-.0467697{col 33}{space 2} .0461298{col 44}{space 1}   -1.01{col 53}{space 3}0.311{col 61}{space 4}-.1372546{col 74}{space 3} .0437152
{txt}republicanDemocracy {c |}{col 21}{res}{space 2}-.0237226{col 33}{space 2} .0339703{col 44}{space 1}   -0.70{col 53}{space 3}0.485{col 61}{space 4}-.0903562{col 74}{space 3} .0429111
{txt}{space 1}republicanStateInt {c |}{col 21}{res}{space 2} .0016484{col 33}{space 2} .0336184{col 44}{space 1}    0.05{col 53}{space 3}0.961{col 61}{space 4}-.0642951{col 74}{space 3} .0675919
{txt}republicanLeaderRep {c |}{col 21}{res}{space 2} .0134362{col 33}{space 2} .0256817{col 44}{space 1}    0.52{col 53}{space 3}0.601{col 61}{space 4}-.0369392{col 74}{space 3} .0638116
{txt}{space 2}republicaStaterep {c |}{col 21}{res}{space 2}-.0200053{col 33}{space 2} .0341541{col 44}{space 1}   -0.59{col 53}{space 3}0.558{col 61}{space 4}-.0869996{col 74}{space 3} .0469891
{txt}{space 14}_cons {c |}{col 21}{res}{space 2} 2.084796{col 33}{space 2} .0461298{col 44}{space 1}   45.19{col 53}{space 3}0.000{col 61}{space 4} 1.994311{col 74}{space 3} 2.175281
{txt}{hline 20}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep HighPolInt HighPolIntDem HighPolIntStateInt HighPolIntStateRep HighPolIntLeader, robust

{txt}Linear regression                               Number of obs     = {res}     2,565
                                                {txt}F(9, 2555)        =  {res}     6.65
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0198
                                                {txt}Root MSE          =    {res} .73111

{txt}{hline 19}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 20}{c |}{col 32}    Robust
{col 1}          response{col 20}{c |}      Coef.{col 32}   Std. Err.{col 44}      t{col 52}   P>|t|{col 60}     [95% Con{col 73}f. Interval]
{hline 19}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 9}democracy {c |}{col 20}{res}{space 2}  .015481{col 32}{space 2} .0286655{col 43}{space 1}    0.54{col 52}{space 3}0.589{col 60}{space 4}-.0407289{col 73}{space 3}  .071691
{txt}{space 5}stateinterest {c |}{col 20}{res}{space 2}-.0455067{col 32}{space 2} .0283247{col 43}{space 1}   -1.61{col 52}{space 3}0.108{col 60}{space 4}-.1010483{col 73}{space 3}  .010035
{txt}{space 10}staterep {c |}{col 20}{res}{space 2}-.0763592{col 32}{space 2} .0285639{col 43}{space 1}   -2.67{col 52}{space 3}0.008{col 60}{space 4}  -.13237{col 73}{space 3}-.0203485
{txt}{space 9}leaderrep {c |}{col 20}{res}{space 2} .1049714{col 32}{space 2} .0217245{col 43}{space 1}    4.83{col 52}{space 3}0.000{col 60}{space 4}  .062372{col 73}{space 3} .1475709
{txt}{space 8}HighPolInt {c |}{col 20}{res}{space 2}-.0670053{col 32}{space 2}  .039214{col 43}{space 1}   -1.71{col 52}{space 3}0.088{col 60}{space 4}-.1438997{col 73}{space 3} .0098892
{txt}{space 5}HighPolIntDem {c |}{col 20}{res}{space 2} .0134076{col 32}{space 2} .0286655{col 43}{space 1}    0.47{col 52}{space 3}0.640{col 60}{space 4}-.0428024{col 73}{space 3} .0696175
{txt}HighPolIntStateInt {c |}{col 20}{res}{space 2} .0228565{col 32}{space 2} .0283247{col 43}{space 1}    0.81{col 52}{space 3}0.420{col 60}{space 4}-.0326851{col 73}{space 3} .0783982
{txt}HighPolIntStateRep {c |}{col 20}{res}{space 2}   .01771{col 32}{space 2} .0285639{col 43}{space 1}    0.62{col 52}{space 3}0.535{col 60}{space 4}-.0383007{col 73}{space 3} .0737208
{txt}{space 2}HighPolIntLeader {c |}{col 20}{res}{space 2} .0053907{col 32}{space 2} .0217245{col 43}{space 1}    0.25{col 52}{space 3}0.804{col 60}{space 4}-.0372087{col 73}{space 3} .0479901
{txt}{space 13}_cons {c |}{col 20}{res}{space 2} 2.075718{col 32}{space 2}  .039214{col 43}{space 1}   52.93{col 52}{space 3}0.000{col 60}{space 4} 1.998824{col 73}{space 3} 2.152613
{txt}{hline 19}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep AgeLow AgeDem AgeState AgeLeader AgeStateInt, robust

{txt}Linear regression                               Number of obs     = {res}     2,566
                                                {txt}F(9, 2556)        =  {res}     8.22
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0238
                                                {txt}Root MSE          =    {res}  .7295

{txt}{hline 14}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 15}{c |}{col 27}    Robust
{col 1}     response{col 15}{c |}      Coef.{col 27}   Std. Err.{col 39}      t{col 47}   P>|t|{col 55}     [95% Con{col 68}f. Interval]
{hline 14}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 4}democracy {c |}{col 15}{res}{space 2}-.0158001{col 27}{space 2}  .036044{col 38}{space 1}   -0.44{col 47}{space 3}0.661{col 55}{space 4}-.0864785{col 68}{space 3} .0548783
{txt}stateinterest {c |}{col 15}{res}{space 2}-.0381263{col 27}{space 2} .0418326{col 38}{space 1}   -0.91{col 47}{space 3}0.362{col 55}{space 4}-.1201556{col 68}{space 3} .0439029
{txt}{space 5}staterep {c |}{col 15}{res}{space 2}-.0377857{col 27}{space 2} .0360015{col 38}{space 1}   -1.05{col 47}{space 3}0.294{col 55}{space 4}-.1083808{col 68}{space 3} .0328093
{txt}{space 4}leaderrep {c |}{col 15}{res}{space 2} .0638186{col 27}{space 2} .0292314{col 38}{space 1}    2.18{col 47}{space 3}0.029{col 55}{space 4} .0064991{col 68}{space 3} .1211382
{txt}{space 7}AgeLow {c |}{col 15}{res}{space 2} -.029546{col 27}{space 2} .0536647{col 38}{space 1}   -0.55{col 47}{space 3}0.582{col 55}{space 4}-.1347767{col 68}{space 3} .0756847
{txt}{space 7}AgeDem {c |}{col 15}{res}{space 2} -.032648{col 27}{space 2}  .036044{col 38}{space 1}   -0.91{col 47}{space 3}0.365{col 55}{space 4}-.1033264{col 68}{space 3} .0380304
{txt}{space 5}AgeState {c |}{col 15}{res}{space 2} .0636965{col 27}{space 2} .0360015{col 38}{space 1}    1.77{col 47}{space 3}0.077{col 55}{space 4}-.0068985{col 68}{space 3} .1342916
{txt}{space 4}AgeLeader {c |}{col 15}{res}{space 2} -.048496{col 27}{space 2} .0292314{col 38}{space 1}   -1.66{col 47}{space 3}0.097{col 55}{space 4}-.1058156{col 68}{space 3} .0088235
{txt}{space 2}AgeStateInt {c |}{col 15}{res}{space 2} .0291135{col 27}{space 2} .0418326{col 38}{space 1}    0.70{col 47}{space 3}0.487{col 55}{space 4}-.0529158{col 68}{space 3} .1111428
{txt}{space 8}_cons {c |}{col 15}{res}{space 2} 2.091296{col 27}{space 2} .0536647{col 38}{space 1}   38.97{col 47}{space 3}0.000{col 55}{space 4} 1.986066{col 68}{space 3} 2.196527
{txt}{hline 14}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep DislikeForce DislikeForceDem DislikeForceStateInt DislikeForceState DislikeForceLeader, robust

{txt}Linear regression                               Number of obs     = {res}     2,566
                                                {txt}F(9, 2556)        =  {res}     7.82
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0242
                                                {txt}Root MSE          =    {res} .72932

{txt}{hline 21}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 22}{c |}{col 34}    Robust
{col 1}            response{col 22}{c |}      Coef.{col 34}   Std. Err.{col 46}      t{col 54}   P>|t|{col 62}     [95% Con{col 75}f. Interval]
{hline 21}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 11}democracy {c |}{col 22}{res}{space 2}  .006485{col 34}{space 2} .0232646{col 45}{space 1}    0.28{col 54}{space 3}0.780{col 62}{space 4}-.0391345{col 75}{space 3} .0521044
{txt}{space 7}stateinterest {c |}{col 22}{res}{space 2}-.0583341{col 34}{space 2} .0236115{col 45}{space 1}   -2.47{col 54}{space 3}0.014{col 62}{space 4}-.1046337{col 75}{space 3}-.0120346
{txt}{space 12}staterep {c |}{col 22}{res}{space 2}-.0869376{col 34}{space 2} .0229243{col 45}{space 1}   -3.79{col 54}{space 3}0.000{col 62}{space 4}-.1318897{col 75}{space 3}-.0419856
{txt}{space 11}leaderrep {c |}{col 22}{res}{space 2} .1061939{col 34}{space 2} .0178881{col 45}{space 1}    5.94{col 54}{space 3}0.000{col 62}{space 4} .0711172{col 75}{space 3} .1412706
{txt}{space 8}DislikeForce {c |}{col 22}{res}{space 2} .0842537{col 34}{space 2} .0317557{col 45}{space 1}    2.65{col 54}{space 3}0.008{col 62}{space 4} .0219842{col 75}{space 3} .1465232
{txt}{space 5}DislikeForceDem {c |}{col 22}{res}{space 2} .0173691{col 34}{space 2} .0232646{col 45}{space 1}    0.75{col 54}{space 3}0.455{col 62}{space 4}-.0282504{col 75}{space 3} .0629885
{txt}DislikeForceStateInt {c |}{col 22}{res}{space 2} .0137227{col 34}{space 2} .0236115{col 45}{space 1}    0.58{col 54}{space 3}0.561{col 62}{space 4}-.0325769{col 75}{space 3} .0600223
{txt}{space 3}DislikeForceState {c |}{col 22}{res}{space 2} .0164931{col 34}{space 2} .0229243{col 45}{space 1}    0.72{col 54}{space 3}0.472{col 62}{space 4}-.0284589{col 75}{space 3} .0614452
{txt}{space 2}DislikeForceLeader {c |}{col 22}{res}{space 2}-.0373098{col 34}{space 2} .0178881{col 45}{space 1}   -2.09{col 54}{space 3}0.037{col 62}{space 4}-.0723865{col 75}{space 3}-.0022331
{txt}{space 15}_cons {c |}{col 22}{res}{space 2}  2.10168{col 34}{space 2} .0317557{col 45}{space 1}   66.18{col 54}{space 3}0.000{col 62}{space 4} 2.039411{col 75}{space 3}  2.16395
{txt}{hline 21}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. reg response democracy stateinterest staterep leaderrep Liberal LiberalDem LiberalStateInt LiberalState LiberalLeader, robust

{txt}Linear regression                               Number of obs     = {res}     2,476
                                                {txt}F(9, 2466)        =  {res}     5.42
                                                {txt}Prob > F          = {res}    0.0000
                                                {txt}R-squared         = {res}    0.0168
                                                {txt}Root MSE          =    {res} .73214

{txt}{hline 16}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{col 17}{c |}{col 29}    Robust
{col 1}       response{col 17}{c |}      Coef.{col 29}   Std. Err.{col 41}      t{col 49}   P>|t|{col 57}     [95% Con{col 70}f. Interval]
{hline 16}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{space 6}democracy {c |}{col 17}{res}{space 2} .0025532{col 29}{space 2}   .02395{col 40}{space 1}    0.11{col 49}{space 3}0.915{col 57}{space 4} -.044411{col 70}{space 3} .0495174
{txt}{space 2}stateinterest {c |}{col 17}{res}{space 2}-.0511395{col 29}{space 2} .0243699{col 40}{space 1}   -2.10{col 49}{space 3}0.036{col 57}{space 4} -.098927{col 70}{space 3}-.0033519
{txt}{space 7}staterep {c |}{col 17}{res}{space 2}-.0791464{col 29}{space 2} .0235225{col 40}{space 1}   -3.36{col 49}{space 3}0.001{col 57}{space 4}-.1252722{col 70}{space 3}-.0330206
{txt}{space 6}leaderrep {c |}{col 17}{res}{space 2} .0988957{col 29}{space 2} .0182964{col 40}{space 1}    5.41{col 49}{space 3}0.000{col 57}{space 4} .0630178{col 70}{space 3} .1347737
{txt}{space 8}Liberal {c |}{col 17}{res}{space 2} .0664794{col 29}{space 2} .0322342{col 40}{space 1}    2.06{col 49}{space 3}0.039{col 57}{space 4} .0032704{col 70}{space 3} .1296883
{txt}{space 5}LiberalDem {c |}{col 17}{res}{space 2}-.0040369{col 29}{space 2}   .02395{col 40}{space 1}   -0.17{col 49}{space 3}0.866{col 57}{space 4}-.0510011{col 70}{space 3} .0429272
{txt}LiberalStateInt {c |}{col 17}{res}{space 2}-.0243991{col 29}{space 2} .0243699{col 40}{space 1}   -1.00{col 49}{space 3}0.317{col 57}{space 4}-.0721866{col 70}{space 3} .0233885
{txt}{space 3}LiberalState {c |}{col 17}{res}{space 2}-.0126201{col 29}{space 2} .0235225{col 40}{space 1}   -0.54{col 49}{space 3}0.592{col 57}{space 4}-.0587459{col 70}{space 3} .0335057
{txt}{space 2}LiberalLeader {c |}{col 17}{res}{space 2}-.0373026{col 29}{space 2} .0182964{col 40}{space 1}   -2.04{col 49}{space 3}0.042{col 57}{space 4}-.0731805{col 70}{space 3}-.0014246
{txt}{space 10}_cons {c |}{col 17}{res}{space 2} 2.108458{col 29}{space 2} .0322342{col 40}{space 1}   65.41{col 49}{space 3}0.000{col 57}{space 4} 2.045249{col 70}{space 3} 2.171667
{txt}{hline 16}{c BT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12}
{res}{txt}
{com}. outreg2 using TableA_7, append excel dec(3) alpha(0.001, 0.01, 0.05)
{txt}{browse `"TableA_7.xml"'}
{browse `"/Users/daniellelupton/Downloads"' :dir}{com} : {txt}{stata `"seeout using "TableA_7.txt""':seeout}

{com}. 
. **To Replicate Table A.8**
. putexcel set TableA_8.xlsx, sheet(Sheet1) replace
{res}{txt}Note: file will be replaced when the first {cmd:putexcel} command is issued

{com}. putexcel A2 = "Regime Type"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel A4 = "State Interest"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel A6 = "Past State Behavior"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel A8 = "Past Leader Behavior"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel B1 = "Student Sample A"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel C1 = "Student Sample B"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel D1 = "Student Sample C"
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel E1 = "MTurk Sample"
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="A"&democracy!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         24       2.125    .6123724          1          3
{txt}
{com}. putexcel B2 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel B3 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="B"&democracy!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         33    1.909091    .7650015          1          3
{txt}
{com}. putexcel C2 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel C3 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="C"&democracy!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         43    2.534884    .6305265          1          3
{txt}
{com}. putexcel D2 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel D3 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="AMT"&democracy!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}        436    2.321101    .7192683          1          3
{txt}
{com}. putexcel E2 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel E3 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="A"&stateinterest!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         20        2.25    .6386664          1          3
{txt}
{com}. putexcel B4 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel B5 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="B"&stateinterest!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         27    1.851852    .8182394          1          3
{txt}
{com}. putexcel C4 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel C5 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="C"&stateinterest!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         60    2.133333    .7694741          1          3
{txt}
{com}. putexcel D4 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel D5 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="AMT"&stateinterest!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}        445     2.08764    .7467377          1          3
{txt}
{com}. putexcel E4 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel E5 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="A"&staterep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         16       1.875    .8062258          1          3
{txt}
{com}. putexcel B6 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel B7 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="B"&staterep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         41    2.121951    .8424702          1          3
{txt}
{com}. putexcel C6 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel C7 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="C"&staterep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         59    1.983051    .7069001          1          3
{txt}
{com}. putexcel D6 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel D7 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="AMT"&staterep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}        438    1.993151    .7238649          1          3
{txt}
{com}. putexcel E6 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel E7 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="A"&leaderrep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}         90         2.1    .7351527          1          3
{txt}
{com}. putexcel B8 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel B9 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="B"&leaderrep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}        109    2.009174    .7992521          1          3
{txt}
{com}. putexcel C8 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel C9 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="C"&leaderrep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}        162    2.185185    .7577527          1          3
{txt}
{com}. putexcel D8 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel D9 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. sum response if pool=="AMT"&leaderrep!=0

{txt}    Variable {c |}        Obs        Mean    Std. Dev.       Min        Max
{hline 13}{c +}{hline 57}
{space 4}response {c |}{res}      1,634    2.137087      .74374          1          3
{txt}
{com}. putexcel E8 = (r(mean))
{res}{txt}file TableA_8.xlsx saved

{com}. putexcel E9 = (r(sd))
{res}{txt}file TableA_8.xlsx saved

{com}. 
. **End Do File**
. 
{txt}end of do-file

{com}. log close
      {txt}name:  {res}<unnamed>
       {txt}log:  {res}/Users/daniellelupton/Documents/Professional/Working Papers/Subject Pool Comparison/R&R/Final/Replication Files/To Upload/LuptonExternalValidityLog.smcl
  {txt}log type:  {res}smcl
 {txt}closed on:  {res}12 Jul 2018, 14:08:06
{txt}{.-}
{smcl}
{txt}{sf}{ul off}